Universal Serial Bus - USB-IF · Universal Serial Bus HID Usage Tables 1.4 Terms and Abbreviations...
Transcript of Universal Serial Bus - USB-IF · Universal Serial Bus HID Usage Tables 1.4 Terms and Abbreviations...
Universal Serial Bus (USB)
HID Point of Sale
Usage Tables 5 March 2001
Version 1.02
Please send comments via electronic mail to: [email protected]
©1998, 1999, 2001 USB Implementers’ Forum—All rights reserved.
Universal Serial Bus HID Point of Sale Usage Tables iii
Version 1.02 March 5, 2001
Contributors Bill Belknap – NCR Corp..
Bob Nathan – NCR Corp.
Alan Guess – PSC, Inc.
Rob Lieb – Symbol Technologies, Inc.
Steve McGowan – Intel (Editor)
Revision History
Revision Issue Date Comments
1.02 March 5, 2001 Incorporate MSR usages
1.01 November 3, 1999 Incorporate Scale usages.
1.0 March 29, 1999 1.0 Release Version
Copyright © 1998-2001, USB Implementers Forum
All rights reserved.
INTELLECTUAL PROPERTY DISCLAIMER
THIS SPECIFICATION IS PROVIDED “AS IS” WITH NO WARRANTIES WHATSOEVER INCLUDING ANY WARRANTY
OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE, OR ANY WARRANTY OTHERWISE ARISING OUT
OF ANY PROPOSAL, SPECIFICATION, OR SAMPLE.
TO THE MAXIMUM EXTENT OF USB IMPLEMENTERS FORUM’S RIGHTS, USB IMPLEMENTERS FORUM HEREBY
GRANTS A LICENSE UNDER COPYRIGHT TO REPRODUCE THIS SPECIFICATION FOR INTERNAL USE ONLY (E.G.,
ONLY WITHIN THE COMPANY OR ORGANIZATION THAT PROPERLY DOWNLOADED OR OTHERWISE OBTAINED
THE SPECIFICATION FROM USB IMPLEMENTERS FORUM, OR FOR AN INDIVIDUAL, ONLY FOR USE BY THAT
INDIVIDUAL). THIS SPECIFICATION MAY NOT BE REPUBLISHED EXTERNALLY OR OTHERWISE TO THE PUBLIC.
IT IS CONTEMPLATED THAT MANY IMPLEMENTATIONS OF THIS SPECIFICATION (E.G., IN A PRODUCT) DO NOT
REQUIRE A LICENSE TO USE THIS SPECIFICATION UNDER COPYRIGHT. FOR CLARITY, HOWEVER, TO THE
MAXIMUM EXTENT OF USB IMPLEMENTERS FORUM’S RIGHTS, USB IMPLEMENTERS FORUM HEREBY GRANTS A
LICENSE UNDER COPYRIGHT TO USE THIS SPECIFICATION AS REASONABLY NECESSARY TO IMPLEMENT THIS
SPECIFICATION (E.G., IN A PRODUCT).
NO OTHER LICENSE, EXPRESS OR IMPLIED, BY ESTOPPEL OR OTHERWISE, TO ANY PATENT OR OTHER
INTELLECTUAL PROPERTY RIGHTS IS GRANTED OR INTENDED HEREBY.
USB IMPLEMENTERS FORUM AND THE AUTHORS OF THIS SPECIFICATION DISCLAIM ALL LIABILITY, INCLUDING
LIABILITY FOR INFRINGEMENT OF PROPRIETARY RIGHTS, RELATING TO IMPLEMENTATION OF INFORMATION
IN THIS SPECIFICATION. AUTHORS OF THIS SPECIFICATION ALSO DO NOT WARRANT OR REPRESENT THAT SUCH
IMPLEMENTATION(S) WILL NOT INFRINGE SUCH RIGHTS.
All product names are trademarks, registered trademarks, or service marks of their respective owners.
Please send comments via electronic mail to [email protected]
iv Universal Serial Bus HID Point of Sale Usage Tables
Version 1.02 March 5, 2001
Table of Contents
1 INTRODUCTION .............................................................................................................................. 1
1.1 Scope .................................................................................................................................................... 1
1.2 Purpose ................................................................................................................................................ 1
1.3 Related Documents ............................................................................................................................. 2
1.4 Terms and Abbreviations .................................................................................................................. 2
2 POS USAGE PAGES ....................................................................................................................... 3
3 USAGE PAGE BAR CODE SCANNER (0X8C) .............................................................................. 4
3.1 Application Usages ........................................................................................................................... 10
3.2 Report Usages ................................................................................................................................... 10
3.3 Scanner Attribute Usages ................................................................................................................ 11
3.4 General Decoder Usages .................................................................................................................. 13
3.5 Data Prefix Usages ............................................................................................................................ 13
3.6 Laser/Motor Control Usages ........................................................................................................... 13
3.6.1 Trigger Mode Usages ........................................................................................................... 14
3.7 Configuration Usages ....................................................................................................................... 14
3.8 Connectivity Usages .......................................................................................................................... 14
3.9 User Interface Usages ....................................................................................................................... 14
3.9.1 Good Read When to Indicate Usages ................................................................................... 15
3.10 UPC/EAN Usages.............................................................................................................................. 15
3.10.1 UPC/EAN Periodical Usages ............................................................................................... 16
3.10.2 EAN Two or Three Label Usages ........................................................................................ 17
3.11 Other 1D Symbology Usages ........................................................................................................... 18
3.11.1 Check Digit Usages ............................................................................................................. 18
3.11.2 Transmit Check Digit Usages .............................................................................................. 19
3.12 2D Symbology Usages....................................................................................................................... 19
3.13 Decode Data Usages .......................................................................................................................... 20
3.14 Raw Data Polarity Usages ................................................................................................................ 20
3.15 Decode Data Length Usages............................................................................................................. 21
3.15.1 Data Length Method Usages ................................................................................................ 21
4 WEIGHING DEVICES (0X8D) ........................................................................................................ 22
4.1 Application Usages ........................................................................................................................... 23
4.2 Class Usages ...................................................................................................................................... 23
4.3 Report Usages ................................................................................................................................... 24
4.4 Data Usages ....................................................................................................................................... 25
4.4.1 Weight Units ......................................................................................................................... 25
Universal Serial Bus HID Point of Sale Usage Tables v
Version 1.02 March 5, 2001
4.4.2 Statistics Data ....................................................................................................................... 25
4.5 Scale Status Usages .......................................................................................................................... 25
4.6 Device Control Usages ..................................................................................................................... 26
5 USAGE PAGE FOR MAGNETIC STRIPE READER (MSR) (0X8E) ............................................ 27
5.1 Application Usages ........................................................................................................................... 28
5.2 Other Usages ..................................................................................................................................... 28
5.2.1 Track information usages ..................................................................................................... 28
6 APPENDIX ..................................................................................................................................... 29
6.1 Barcode Device Examples ................................................................................................................ 29
6.1.1 Settings Report ..................................................................................................................... 29
6.1.2 Scanned Data Report ............................................................................................................ 31
6.1.3 Raw Scanned Data Report .................................................................................................... 32
6.1.4 Trigger Report ...................................................................................................................... 33 6.1.5 Status Report. ....................................................................................................................... 34
6.1.6 UPC/EAN Control Report .................................................................................................... 34
6.1.7 EAN 2/3 Label Control Report ............................................................................................ 36
6.1.8 Code 39 Control Report ....................................................................................................... 39
6.1.9 Interleaved 2 of 5 Control Report ......................................................................................... 41
6.1.10 Standard 2 of 5 Control Report ............................................................................................ 43 6.1.11 MSI Plessey Control Report ................................................................................................ 45
6.1.12 Codabar Control Report ...................................................................................................... 47
6.1.13 Code 128 Control Report ..................................................................................................... 49
6.1.14 Misc 1D Control Report ...................................................................................................... 50
6.1.15 2D Control Report ............................................................................................................... 51
6.1.16 Attribute Report ................................................................................................................... 52
6.2 Scale Usage Examples ...................................................................................................................... 53
6.2.1 Report Descriptor ................................................................................................................. 53
6.2.2 Scale Attributes Report ........................................................................................................ 56
6.2.3 Scale Control Report ............................................................................................................ 56
6.2.4 Scale Data Report ................................................................................................................. 57
6.2.5 Scale Status Report ............................................................................................................... 57
6.2.6 Scale Weight Limit Report ................................................................................................... 57
6.2.7 Scale Statistics Report .......................................................................................................... 58
6.3 MSR Report Example ..................................................................................................................... 58
6.3.1 3-Track ISO Example ........................................................................................................... 58
7 USAGE INDEX .............................................................................................................................. 61
vi Universal Serial Bus HID Point of Sale Usage Tables
Version 1.02 March 5, 2001
List of Tables Table 1: POS Usage Page Summary ................................................................................................................. 3
Table 2: Bar Code Scanner Usage Page ............................................................................................................ 4
Table 3: Scale Usage Page............................................................................................................................... 22
Table 4: Magnetic Stripe Reader (MSR) Usage Page ...................................................................................... 27
List of Figures Figure 1: Example Settings Report .................................................................................................................. 30
Figure 2: Example Scanned Data Report ......................................................................................................... 31
Figure 3: Example Raw Scanned Data Report. ............................................................................................... 32
Figure 4: Example Trigger Report ................................................................................................................... 33
Figure 5: Example Status Report ..................................................................................................................... 34
Figure 6: Example UPC/EAN Control Report ................................................................................................ 35
Figure 7: Example EAN 2/3 Label Control Report: Add Two Label Definition EAN8+EAN8 ...................... 36
Figure 8: Example EAN 2/3 Label Control Report: Add Two Label Definition EAN8+EAN13 .................... 36
Figure 9: Example EAN 2/3 Label Control Report: Add Two Label Definition EAN13+EAN13.................. 36
Figure 10: Example EAN 2/3 Label Control Report: Add Three Label Definition All EAN8 ........................ 37
Figure 11: Example EAN 2/3 Label Control Report: Add Three Label Definition EAN8+EAN8+EAN13 ... 37
Figure 12: Example EAN 2/3 Label Control Report: Add Three Label Definition EAN8+EAN13+EAN13 37
Figure 13: Example EAN 2/3 Label Control Report: Add Three Label Definition All EAN 13 ..................... 38
Figure 14: Example EAN 2/3 Label Control Report: Clear all Two Label Definitions .................................. 38
Figure 15: Example EAN 2/3 Label Control Report: Clear all Three Label Definitions ................................ 38
Figure 16: Example Code 39 Control Report .................................................................................................. 40
Figure 17: Example Interleaved 2 of 5 Control Report ................................................................................... 42
Figure 18: Example Standard 2 of 5 Control Report ....................................................................................... 44
Figure 19: Example MSI Plessey Control Report ............................................................................................ 46
Figure 20: Example Codabar Control Report .................................................................................................. 48
Figure 21: Example Code128 Control Report ................................................................................................. 49
Figure 22: Example Misc 1D Control Report .................................................................................................. 50
Figure 23: Example 2D Control Report ........................................................................................................... 51
Figure 24: Example Attribute Report .............................................................................................................. 52
Figure 25: Example Scale Attributes Feature Report ...................................................................................... 56
Figure 26: Example Scale Control Feature Report .......................................................................................... 56
Figure 27: Example Scale Data Input Report .................................................................................................. 57
Figure 28: Example Scale Status Input Report ................................................................................................ 57
Figure 29: Example Scale Weight Limit Feature Report ................................................................................. 57
Figure 30: Example Scale Statistics Feature Report ........................................................................................ 58
Universal Serial Bus HID Point of Sale Usage Tables 1
Version 1.02 March 5, 2001
1 Introduction Usages.are part of the HID Report descriptor and supply an application developer with information about
what a control is actually measuring or reporting. In addition, a Usage tag can be used to indicate the
vendor’s suggested use for a specific control or a group of controls. While most of the items within a Report
descriptor describe the format of the data – for example, thee 8-bit fields—the Usage tags define what
should be done with the data – for example, x, y, and z input. This feature allows a vendor to ensure that the
user sees consistent function assignments to controls across applications. It is also the key feature within
HID Report descriptors that allows system or application software to know the meaning of data items, or
collections of data items, so the data items can be correctly interpreted or routed to the system or application
software that consumes them.
1.1 Scope .This document is the most current and complete list of currently defined usages for Point of Sale devices.
Refer to the Universal Serial Bus HID Usage Tables document for other usage definitions.
1.2 Purpose This document defines constants that can be interpreted by an application to identify the purpose and
meaning of a data field in a HID report.
2 Universal Serial Bus HID Point of Sale Usage Tables
Version 1.02 March 5, 2001
1.3 Related Documents Universal Serial Bus Specification (also referred to as the USB Specification)
Universal Serial Bus Device Class Definition for Human Interface Devices (HID) (also referred to as the
HID Specification)
Universal Serial Bus HID Usage Tables
1.4 Terms and Abbreviations Application A software program that consumes the data generated by the HID device Input
reports, or that controls the HID device through Feature or Output reports.
Applications can be games or other programs used by end users or system
software components.
Array field The bit field created by an Input, Output, or Feature main item which is
declared as an Array. An array field contains the index of a usage, not the usage value.
Control A control is used to operate or regulate a particular aspect of a device. In this
document a control refers broadly to the physical entity on the device that the usage identifies.
Field The Input, Output, and Feature main items create a bit field in a report. The
Report Size determines the field’s width and the associated usage determines
the field’s purpose. The offset of a field in a report is determined by the fields that are declared before it.
Pad If a field is marked as a constant and there is no usage associated with it, the
field will be treated as pad bits and ignored by host software.
Note: Fields created by Main items that do not have usages attached to them
might not be accessible by applications. Whether such access is possible
depends on the implementation of the HID device driver.
Usage Defines the purpose or meaning of an item.
Universal Serial Bus HID Point of Sale Usage Tables 3
Version 1.02 March 5, 2001
2 POS Usage Pages The following table lists the currently defined Point Of Sale usage pages and the section in this document or
the specification where each page is described.
Table 1: POS Usage Page Summary
Page ID Page Name Section or Document
00-8B USB HID Usage Tables
8C Bar Code Scanner page 3
8D Weighing Devices page 4
8E Magnetic Stripe Reader page 5
8F Reserved Point of Sale page
90-EFFF USB HID Usage Tables
FF00-FFFF Vendor-defined
4 Universal Serial Bus HID Point of Sale Usage Tables
Version 1.02 March 5, 2001
3 Usage Page Bar Code Scanner (0x8C) This page is targeted at the key devices that perform the primary task of Bar Code Scanning. Not all bar
code scanners support all these features, and some scanners have features that go beyond this list. Any
features that are not on this list can be implemented with vendor specific usages.
Table 2: Bar Code Scanner Usage Page
Usage ID Usage Name Usage Type Section
00 Undefined
01 Bar Code Badge Reader CA 3.1
02 Bar Code Scanner CA 3.1
03 Dumb Bar Code Scanner CA 3.1
04 Cordless Scanner Base CA 3.1
05 Bar Code Scanner Cradle CA 3.1
06-0F Reserved
10 Attribute Report CL 3.2
11 Settings Report CL 3.2
12 Scanned Data Report CL 3.2
13 Raw Scanned Data Report CL 3.2
14 Trigger Report CL 3.2
15 Status Report CL 3.2
16 UPC/EAN Control Report CL 3.2
17 EAN 2/3 Label Control Report CL 2.2
18 Code 39 Control Report CL 2.2
19 Interleaved 2 of 5 Control Report
CL 2.2
1A Standard 2 of 5 Control Report CL 2.2
1B MSI Plessey Control Report CL 2.2
1C Codabar Control Report CL 2.2
1D Code 128 Control Report CL 2.2
1E Misc 1D Control Report CL 3.2
1F 2D Control Report CL 3.2
20-2F Reserved
30 Aiming/Pointer Mode SF 3.3
31 Bar Code Present Sensor SF 3.3
32 Class 1A Laser SF 3.3
33 Class 2 Laser SF 3.3
34 Heater Present SF 3.3
35 Contact Scanner SF 3.3
36 Electronic Article Surveillance Notification
SF 3.3
Universal Serial Bus HID Point of Sale Usage Tables 5
Version 1.02 March 5, 2001
Usage ID Usage Name Usage Type Section
37 Constant Electronic Article Surveillance
SF 2.3
38 Error Indication SF 3.3
39 Fixed Beeper SF 3.3
3A Good Decode Indication SF 3.3
3B Hands Free Scanning SF 3.3
3C Intrinsically Safe SF 3.3
3D Klasse Eins Laser SF 3.3
3E Long Range Scanner SF 3.3
3F Mirror Speed Control SF 3.3
40 Not On File Indication SF 3.3
41 Programmable Beeper SF 3.3
42 Triggerless SF 3.3
43 Wand SF 3.3
44 Water Resistant SF 3.3
45 Multi-Range Scanner SF 3.3
46 Proximity Sensor SF 3.3
47-4C Reserved
4D Fragment Decoding DF 3.4
4E Scanner Read Confidence DV 3.4
4F Data Prefix NAry 3.5
50 Prefix AIMI SEL 3.5
51 Prefix None SEL 3.5
52 Prefix Proprietary SEL 3.5
53-54 Reserved
55 Active Time DV 3.6
56 Aiming Laser Pattern DF 3.6
57 Bar Code Present OOC 3.6
58 Beeper State OOC 3.6
59 Laser On Time DV 3.6
5A Laser State OOC 3.6
5B Lockout Time DV 3.6
5C Motor State OOC 3.6
5D Motor Timeout DV 3.6
5E Power On Reset Scanner DF 3.6
5F Prevent Read of Barcodes DF 3.6
60 Initiate Barcode Read DF 3.6
61 Trigger State OOC 3.6
62 Trigger Mode NAry 3.6.1
6 Universal Serial Bus HID Point of Sale Usage Tables
Version 1.02 March 5, 2001
Usage ID Usage Name Usage Type Section
63 Trigger Mode Blinking Laser On
SEL 3.6.1
64 Trigger Mode Continuous Laser On
SEL 3.6.1
65 Trigger Mode Laser on while Pulled
SEL 3.6.1
66 Trigger Mode Laser stays on after Trigger release
SEL 3.6.1
67-6C Reserved
6D Commit Parameters to NVM DF 3.7
6E Parameter Scanning DF 3.7
6F Parameters Changed OOC 3.7
70 Set parameter default values DF 3.7
71-74 Reserved
75 Scanner In Cradle OOC 3.8
76 Scanner In Range OOC 3.8
77-79 Reserved
7A Aim Duration DV 3.9
7B Good Read Lamp Duration DV 3.9
7C Good Read Lamp Intensity DV 3.9
7D Good Read LED DF 3.9
7E Good Read Tone Frequency DV 3.9
7F Good Read Tone Length DV 3.9
80 Good Read Tone Volume DV 3.9
81 Reserved DV 3.9
82 No Read Message DF 3.9
83 Not on File Volume DV 3.9
84 Powerup Beep DF 3.9
85 Sound Error Beep DF 3.9
86 Sound Good Read Beep DF 3.9
87 Sound Not On File Beep DF 3.9
88 Good Read When to Write NAry 3.9.1
89 GRWTI After Decode SEL 3.9.1
8A GRWTI Beep/Lamp after transmit
SEL 3.9.1
8B GRWTI No Beep/Lamp use at all
SEL 3.9.1
8C-90 Reserved
91 Bookland EAN DF 3.10
92 Convert EAN 8 to 13 Type DF 3.10
93 Convert UPC A to EAN-13 DF 3.10
94 Convert UPC-E to A DF 3.10
Universal Serial Bus HID Point of Sale Usage Tables 7
Version 1.02 March 5, 2001
Usage ID Usage Name Usage Type Section
95 EAN-13 DF 3.10
96 EAN-8 DF 3.10
97 EAN-99 128_Mandatory DF 3.10
98 EAN-99 P5/128_Optional DF 3.10
99 Reserved
9A UPC/EAN DF 3.10
9B UPC/EAN Coupon Code DF 3.10
9C UPC/EAN Periodicals DV 3.10
9D UPC-A DF 3.10
9E UPC-A with 128 Mandatory DF 3.10
9F UPC-A with 128 Optional DF 3.10
A0 UPC-A with P5 Optional DF 3.10
A1 UPC-E DF 3.10
A2 UPC-E1 DF 3.10
A2-A8 Reserved
A9 Periodical NAry 3.10.1
AA Periodical Auto-Discriminate + 2
SEL 3.10.1
AB Periodical Only Decode with + 2
SEL 3.10.1
AC Periodical Ignore + 2 SEL 3.10.1
AD Periodical Auto-Discriminate + 5
SEL 3.10.1
AE Periodical Only Decode with + 5
SEL 3.10.1
AF Periodical Ignore + 5 SEL 3.10.1
B0 Check NAry 3.10.1.1
B1 Check Disable Price SEL 3.10.1.1
B2 Check Enable 4 digit Price SEL 3.10.1.1
B3 Check Enable 5 digit Price SEL 3.10.1.1
B4 Check Enable European 4 digit Price
SEL 3.10.1.1
B5 Check Enable European 5 digit Price
SEL 3.10.1.1
B6 Reserved
B7 EAN Two Label DF 2.9.3
B8 EAN Three Label DF 2.9.3
B9 EAN 8 Flag Digit 1 DV 3.10.2
BA EAN 8 Flag Digit 2 DV 3.10.2
BB EAN 8 Flag Digit 3 DV 3.10.2
BC EAN 13 Flag Digit 1 DV 3.10.2
BD EAN 13 Flag Digit 2 DV 3.10.2
8 Universal Serial Bus HID Point of Sale Usage Tables
Version 1.02 March 5, 2001
Usage ID Usage Name Usage Type Section
BE EAN 13 Flag Digit 3 DV 3.10.2
BF Add EAN 2/3 Label Definition DF 2.9.3
C0 Clear all EAN 2/3 Label Definitions
DF 2.9.3
C1 Reserved
C2 Reserved
C3 Codabar DF 0
C4 Code 128 DF 0
C5 Reserved
C6 Reserved
C7 Code 39 DF 0
C8 Code 93 DF 0
C9 Full ASCII Conversion DF 0
CA Interleaved 2 of 5 DF 0
CB Italian Pharmacy Code DF 0
CC MSI/Plessey DF 0
CD Standard 2 of 5 IATA DF 0
CE Standard 2 of 5 DF 0
CF Reserved
D0 Reserved
D1 Reserved
D2 Reserved
D3 Transmit Start/Stop DF 0
D4 Tri-Optic DF 0
D5 UCC/EAN-128 DF 0
D6 Check Digit NAry 3.11.1
D7 Check Digit Disable SEL 3.11.1
D8 Check Digit Enable Interleaved 2 of 5 OPCC
SEL 3.11.1
D9 Check Digit Enable Interleaved 2 of 5 USS
SEL 3.11.1
DA Check Digit Enable Standard 2 of 5 OPCC
SEL 3.11.1
DB Check Digit Enable Standard 2 of 5 USS
SEL 3.11.1
DC Check Digit Enable One MSI Plessey
SEL 3.11.1
DD Check Digit Enable Two MSI Plessey
SEL 3.11.1
DE Check Digit Codabar Enable SEL 2.10.1
DF Check Digit Code 39 Enable SEL 2.10.1
E0-EF Reserved
Universal Serial Bus HID Point of Sale Usage Tables 9
Version 1.02 March 5, 2001
Usage ID Usage Name Usage Type Section
F0 Transmit Check Digit NAry 2.10.2
F1 Disable Check Digit Transmit SEL 2.10.2
F2 Enable Check Digit Transmit SEL 2.10.2
F3-FA Reserved
FB Symbology Identifier 1 DV 3.13
FC Symbology Identifier 2 DV 3.13
FD Symbology Identifier 3 DV 3.13
FE Decoded Data DV 3.13
FF Decode Data Continued DF 3.13
100 Bar Space Data DV 3.13
101 Scanner Data Accuracy DV 3.13
102 Raw Data Polarity NAry 3.14
103 Polarity Inverted Bar Code SEL 3.14
104 Polarity Normal Bar Code SEL 3.14
105 Reserved
106 Minimum Length to Decode DV 3.15
107 Maximum Length to Decode DV 3.15
108 First Discrete Length to Decode
DV 3.15
109 Second Discrete Length to Decode
DV 3.15
10A Data Length Method NAry 3.15.1
10B DL Method Read any SEL 3.15.1
10C DL Method Check in Range SEL 3.15.1
10D DL Method Check for Discrete SEL 3.15.1
10E-10F Reserved
110 Aztec Code DF 3.12
111 BC412 DF 3.12
112 Channel Code DF 3.12
113 Code 16 DF 3.12
114 Code 32 DF 3.12
115 Code 49 DF 3.12
116 Code One DF 3.12
117 Colorcode DF 3.12
118 Data Matrix DF 3.12
119 MaxiCode DF 3.12
11A MicroPDF DF 3.12
11B PDF-417 DF 3.12
11C PosiCode DF 3.12
11D QR Code DF 3.12
10 Universal Serial Bus HID Point of Sale Usage Tables
Version 1.02 March 5, 2001
Usage ID Usage Name Usage Type Section
11E SuperCode DF 3.12
11F UltraCode DF 3.12
120 USD-5 (Slug Code) DF 3.12
121 VeriCode DF 3.12
122-FFFF Reserved
3.1 Application Usages The usages in this section are the primary types of scanner configurations that apply to this Bar Code Usage
Table. The type of scanner identified by the Bar Code Scanning device can imply to the USB Host certain
usages that will not apply. For example, the “Scanner in Range” usage only needs to be watched for
Cordless Scanner Base type devices.
Bar Code Badge
Reader
CA – A Wall Mounted, swipe activated device that reads barcodes on ID
badges
Bar Code Scanner CA – A device that reads barcodes and transmits decoded data
Dumb Bar Code
Scanner
Cordless Scanner
Base
Bar Code Scanner
Cradle
CA – A device that reads barcodes and transmits raw barcode data without
decoding the barcode
CA – A device that communicates with a barcode scanner that is not
connected with a cable (includes IR and Radio connections).
CA – A device that receives stored barcode data when the scanner is placed in
a cradle
3.2 Report Usages The usages in this section are defined to standardize the groupings of reports that are sent between the USB
Host and the Bar Code scanner. The Scanned Data Report and the Raw Scanned Data Report usages are
used to indicate the type of Decode data being passed to the USB Host. The rest of the Report usages are
not required and are provided for clarity sake.
Attribute Report CL – A Feature report that the Bar Code Scanner uses to specify the scanner’s attributes.
Settings Report CL – An Output report that the USB Host uses to set the scanner’s non-
symbology related parameters. These settings are typically sent when
communications with the Barcode scanner are initiated.
Scanned Data Report CL – An Input report that the Bar Code Scanner uses to transmit decoded barcode data using the ASCII character set to the USB Host. Note: All
decoded data should be sent using ASCII characters. BCD and Hexadecimal
representation are not recommended.
Raw Scanned Data
Report
CL – An Input report that a Dumb Bar Code Scanner uses to transmit
decoded barcode data to the USB Host.
Trigger Report CL – An Output report that a USB Host uses to trigger events on the Bar Code Scanner.
Status Report CL – An Input report that a Dumb Bar Code Scanner uses to communicate what it is presently doing. This information is especially needed when scan
Universal Serial Bus HID Point of Sale Usage Tables 11
Version 1.02 March 5, 2001
UPC/EAN Control
Report
attempts are controlled by the USB Host.
CL – An Output report that a USB Host uses to configure the UPC/EAN
decoder software within the scanner. These settings are typically sent when
communications with the Barcode scanner are initiated
EAN 2/3 Label
Control Report
CL – An Output report that a USB Host uses to configure the EAN Two or
Three label decoder software within the scanner. These settings are typically
sent when communications with the Barcode scanner are initiated
Code 39 Control
Report
Interleaved 2 of 5
Control Report
Standard 2 of 5
Control Report
MSI Plessey Control
Report
Codabar Control
Report
Code 128 Control
Report
CL – An Output report that a USB Host uses to configure the Code 39
decoder software within the scanner. These settings are typically sent when
communications with the Barcode scanner are initiated
CL – An Output report that a USB Host uses to configure the Interleaved 2 of
5 decoder software within the scanner. These settings are typically sent when
communications with the Barcode scanner are initiated
CL – An Output report that a USB Host uses to configure the Standard 2 of 5
decoder software within the scanner. These settings are typically sent when
communications with the Barcode scanner are initiated
CL – An Output report that a USB Host uses to configure the MSI Plessey
decoder software within the scanner. These settings are typically sent when
communications with the Barcode scanner are initiated
CL – An Output report that a USB Host uses to configure the Codabar
decoder software within the scanner. These settings are typically sent when
communications with the Barcode scanner are initiated
CL – An Output report that a USB Host uses to configure the Code 128
decoder software within the scanner. These settings are typically sent when
communications with the Barcode scanner are initiated
Misc 1D Control
Report
CL – An Output report that a USB Host uses to configure decoder software
for miscellaneous 1D symbololgies (other than the ones with their own
reports) within the scanner. These settings are typically sent when
communications with the Barcode scanner are initiated
2D Control Report CL – An Output report that a USB Host uses to configure the 2D Symbology
decoder software within the scanner. These settings are typically sent when communications with the Barcode scanner are initiated
3.3 Scanner Attribute Usages The usages in this section are all Features that the scanner may implement. They are most useful in cases
where a user may have several different scanners, and the USB host system requires a specific type of
scanner for optimal use – such as with Intrinsically Safe or Water Resistant scanners.
Aiming/Pointer Mode SF – Finding this usage in a Bar Code Scanner descriptor indicates that the
scanner supports an Aiming/Pointer Mode
Bar Code Present
Sensor
SF – Finding this usage in a Bar Code Scanner descriptor indicates that the
scanner has a Bar Code Present sensor
12 Universal Serial Bus HID Point of Sale Usage Tables
Version 1.02 March 5, 2001
Class 1A Laser SF – Finding this usage in a Bar Code Scanner descriptor indicates that the
scanner meets the requirements of a Class 1A Laser product.
Class 2 Laser SF – Finding this usage in a Bar Code Scanner descriptor indicates that the
scanner meets the requirements of a Class 2 Laser product.
Heater Present SF – Finding this usage in a Bar Code Scanner descriptor indicates that the
scanner is has a built-in or attached heater that allows the scanner to be used
in very cold environments.
Contact Scanner SF – Finding this usage in a Bar Code Scanner descriptor indicates that the
scanner is capable of reading barcodes at contact
Electronic Article
Surveillance
Notification
Constant Electronic
Article Surveillance
SF – Finding this usage in a Bar Code Scanner descriptor indicates that the
scanner is capable of providing a signal after a good decode for invalidating
EAS tags.
SF – Finding this usage in a Bar Code Scanner descriptor indicates that the
scanner has an EAS antenna included.
Error Indication SF – Finding this usage in a Bar Code Scanner descriptor indicates that the
scanner has an Error Indication
Fixed Beeper SF – Finding this usage in a Bar Code Scanner descriptor indicates that the
scanner does not have a programmable beeper
Good Decode
Indication
SF – Finding this usage in a Bar Code Scanner descriptor indicates that the
scanner has Good Decode Indication
Hands Free Scanning SF – Finding this usage in a Bar Code Scanner descriptor indicates that the
scanner has the capability of continuous-on hands free scanning
Intrinsically Safe SF – Finding this usage in a Bar Code Scanner descriptor indicates that the
scanner is safe for use in hazardous environments
Klasse Eins Laser SF – Finding this usage in a Bar Code Scanner descriptor indicates that the
scanner meets the requirements of a Klasse Eins Laser product
Long Range Scanner SF – Finding this usage in a Bar Code Scanner descriptor indicates that the
scanner can read barcodes beyond the arm’s reach of an operator
Mirror Speed Control SF – Finding this usage in a Bar Code Scanner descriptor indicates that the
scanner can control the speed of its mirror
Not On File Indication SF – Finding this usage in a Bar Code Scanner descriptor indicates that the
scanner has a visual Not on File indication
Programmable Beeper SF – Finding this usage in a Bar Code Scanner descriptor indicates that the
scanner has a programmable beeper
Triggerless SF – Finding this usage in a Bar Code Scanner descriptor indicates that the
scanner does not have a trigger
Wand SF – Finding this usage in a Bar Code Scanner descriptor indicates that the
scanner reads barcodes with a wand element
Water Resistant SF – Finding this usage in a Bar Code Scanner descriptor indicates that the
scanner is water resistant
Multi-Range Scanner SF – Finding this usage in a Bar Code Scanner descriptor indicates that the
scanner can be used for both short and long range applications
Universal Serial Bus HID Point of Sale Usage Tables 13
Version 1.02 March 5, 2001
Proximity Sensor SF – Finding this usage in a Bar Code Scanner descriptor indicates that the
scanner contains a sensor that detects an object in the scanner’s field of view
3.4 General Decoder Usages The usages in this section allow the USB Host to program Code Type independent Decoder parameters.
Fragment Decoding DF – Absolute, Indicates if the decoder will attempt to combine fragments of
barcodes together to get a valid decode.
Scanner Read
Confidence
DV – Relative, Selects on a relative scale how much confidence the barcode
reader should have in the read data before accepting it as a good decode. (1-
10, 1=Least)
3.5 Data Prefix Usages The usages in this section are used to specify the value of the “Decode Data Prefix” Usage.
Data Prefix NAry – A logical collection containing Prefix selector usages.
Prefix AIMI SEL – Decode data will be preceded with a three-character AIM identifier as
defined in the standard documents ITS 98-002 or EN796.
Prefix None SEL – Decode data will be sent as decoded
Prefix Proprietary SEL – Decode data will have a proprietary prefix
3.6 Laser/Motor Control Usages The usages in this section are used to control and monitor the performance of the Scan Data acquisition
subsystem within a Bar Code scanner.
Active Time DV – Duration that the triggerless scanner will operate in continuous on
mode without any decode attempt before shutting down. (0.1 sec resolution)
Aiming Laser Pattern DF – Relative, Triggers the display of an Aiming pattern on the barcode
scanner
Bar Code Present OOC – Indicates if a barcode sensor sees a barcode in view
Beeper State OOC – Indicates if the beeper is presently sounding a beep
Laser On Time DV – Absolute, The amount of time the laser stays on in a triggered decode
attempt if nothing is decoded (0.1 sec resolution)
Laser State OOC – Indicates if the scanner is presently scanning a barcode.
Lockout Time DV – Absolute, The amount of time that should elapse before scanning the
same barcode again with a continuous on scanner. (0.01 sec resolution)
Motor State OOC – Indicates if the motor is presently running on the scanner
Motor Timeout DV – Absolute, The amount of time that the motor on a scanner will continue
to operate while there is no decoding of barcode data (0.1 sec resolution)
Power On Reset
Scanner
Prevent Read of
Barcodes
DF – Absolute, Triggers a Power On Reset on the barcode scanning device.
DF – Absolute, While it has a value of 1, the barcode scanner will not read
barcodes
14 Universal Serial Bus HID Point of Sale Usage Tables
Version 1.02 March 5, 2001
Initiate Barcode Read DF – Absolute, While it has a value of 1, the barcode scanner should behave
as if the mechanical trigger on the scanner was pulled.
Trigger State OOC – Indicates if the mechanical trigger on the scanner is pulled
3.6.1 Trigger Mode Usages
The usages in this section are used to specify how the scanning of a barcode is triggered
Trigger Mode NAry – A logical collection containing Trigger Mode selector usages.
Trigger Mode Blinking
Laser On
Trigger Mode
Continuous Laser On
Trigger Mode Laser on
while Pulled
Trigger Mode Laser
stays on after release
SEL – Laser should blink while barcode data is not present and stay on
continuously while barcode data is present.
SEL – Laser should stay on all the time
SEL – Laser should be on only while the trigger is pulled and the barcode
reader has not yet read a barcode, or the laser on time is reached
SEL – Laser should go on when the trigger is pulled and should stay on until
a barcode is read or the laser on time is reached
3.7 Configuration Usages The usages in this section are used to perform special operations with the Scanner’s Non-Volatile memory
based parameters.
Commit Parameters to
NVM
DF – Relative, Triggers the writing of the barcode scanner’s internal
parameters into NVM memory
Parameter Scanning DF – Absolute, Indicates if the barcode reader’s parameters can be changed
by barcode menus
Parameters Changed OOC – Indicates if any of the scanner’s parameters were changed by the user.
Set parameter default
values
DF – Relative, Triggers the setting of the barcode scanner’s internal
parameters to their default settings
3.8 Connectivity Usages The usages in this section are used to monitor the presence of the scanner in cases when the scanner is not
connected to the USB Host by a wire, but by through a base device.
Scanner In Cradle OOC – Indicates if the scanner is presently on the cradle
Scanner In Range OOC – Indicates if a cordless scanner is presently within range for
communicating
3.9 User Interface Usages The usages in this section are used to configure the “User Interface” settings of the scanner. For a scanner
the user interface is largely the trigger, the LED’s and the Beeper.
Aim Duration DV – Duration that the scanner will remain in AIM mode before turning off
(0.1 sec resolution)
Good Read Lamp
Duration
DV – Absolute, Amount of time the Good Read lamp should stay illuminated
after a good read (0.01 sec resolution)
Universal Serial Bus HID Point of Sale Usage Tables 15
Version 1.02 March 5, 2001
Good Read Lamp
Intensity
DV – Relative, Sets the brightness of the Good Read lamp ( 0 = disable )
Good Read LED DF – Absolute, Turns the Good Read LED on or off
Good Read Tone
Frequency
Good Read Tone
Length
Good Read Tone
Volume
DV – Relative, Frequency of the Good Read Tone
DV – Absolute, Length of Good Read Tone (0.01 sec resolution)
DV – Relative, Volume of Good Read Tone
No Read Message DF – Absolute, Indicates if a message should be sent to indicate an
unsuccessful attempt to scan a barcode.
Not on File Volume DV – Relative, The volume of the Not on File beep
Power-Up Beep DF – Absolute, Indicates if the barcode reader should beep when powering up
(or after a POR)
Sound Error Beep DF – Relative, Triggers the sounding of an Error Beep
Sound Good Read Beep DF – Relative, Triggers the sounding of a Good Read Beep
Sound Not On File
Beep
DF – Relative, Triggers the sounding of a Not on File Beep
3.9.1 Good Read When to Indicate Usages
The usages in this section are used to specify when to indicate a “Good Read”.
Good Read When to
Indicate
NAry – A logical collection containing GRWTI selector usages.
GRWTI After Decode SEL – Beep/Lamp only after decode
GRWTI Beep/Lamp
after transmit
GRWTI No Beep/Lamp
use at all
SEL – Beep/Lamp after transmit completes
SEL – No Beep/Lamp after decode or transmit
3.10 UPC/EAN Usages The usages in this section are used to configure the UPC/EAN software within the Barcode Scanner
Bookland EAN DF – Absolute, Indicates if EAN barcodes with Bookland data format should
be decoded
Convert EAN 8 to 13
Type
Convert UPC A to
EAN-13
DF – Absolute, Indicates if EAN-8 decoded barcodes should be converted to
be a comparable EAN-13 barcode
DF – Absolute, Indicates if UPC-A decoded barcodes should be converted to
be a comparable EAN-13 barcode
Convert UPC-E to A DF – Absolute, Indicates if UPC-E decoded barcodes should be converted to
be a comparable UPC-A barcode
EAN-13 DF – Absolute, Indicates if EAN-13 barcodes should be decoded
16 Universal Serial Bus HID Point of Sale Usage Tables
Version 1.02 March 5, 2001
EAN-8 DF – Absolute, Indicates if EAN-8 barcodes should be decoded
EAN-99
128_Mandatory
EAN-99
P5/128_Optional
DF – Absolute, Indicates if EAN-99 barcodes with 128 Mandatory format
should be decoded
DF – Absolute, Indicates if EAN-99 barcodes with five-digit periodical or
128 optional format should be decoded
Enable EAN Two Label DF – Absolute, Indicates if EAN Two Label barcodes should be decoded
UPC/EAN DF – Absolute, Indicates if UPC/EAN barcodes should be decoded
UPC/EAN Coupon
Code
DF – Absolute, Indicates if UPC/EAN Coupon Code barcodes should be
decode
UPC-A DF – Absolute, Indicates if UPC A barcodes should be decoded
UPC-A with 128
Mandatory
UPC-A with 128
Optional
UPC-A with P5
Optional
DF – Absolute, Indicates if UPC-A barcodes with 128 Mandatory format
should be decoded
DF – Absolute, Indicates if UPC-A barcodes with 128 Optional format should
be decoded
DF – Absolute, Indicates if UPC-A barcodes with five-digit Periodical data
format should be decoded
UPC-E DF – Absolute, Indicates if UPC E barcodes should be decoded
UPC-E1 DF – Absolute, Indicates if UPC E1 barcodes should be decoded
3.10.1 UPC/EAN Periodical Usages
The usages in this section are used to specify how UPC/EAN symbols with periodicals should be read
Periodical NAry – A logical collection containing Periodical selector usages.
Periodical Auto-
Discriminate +2
Periodical Only Decode
with +2
SEL – Read UPC/EAN barcodes with or without periodical data
SEL – Only read UPC/EAN barcodes with periodicals
Periodical Ignore +2 SEL – Ignore UPC/EAN periodical data within barcode
Periodical Auto-
Discriminate +5
Periodical Only Decode
with +5
SEL – Read UPC/EAN barcodes with or without periodical data
SEL – Only read UPC/EAN barcodes with periodicals
Periodical Ignore +5 SEL – Ignore UPC/EAN periodical data within barcode
3.10.1.1 Price/Weight Check Usages
The usages in this section are used to specify how a “Price/Weight Check” should be processed.
Check NAry – A logical collection containing Check selector usages.
Check Disable Price SEL – Do not perform a price/weight check
Check Enable 4 digit
Price
SEL – Enable four-digit price/weight check
Universal Serial Bus HID Point of Sale Usage Tables 17
Version 1.02 March 5, 2001
Check Enable 5 digit
Price
Check Enable European
4 digit Price
Check Enable European
5 digit Price
SEL – Enable five-digit price/weight check
SEL – Enable European four-digit price/weight check
SEL – Enable European five-digit price/weight check
3.10.2 EAN Two or Three Label Usages
The usages in this section are used to specify how EAN Two Label and Three Label barcodes should be read
(if at all). The bar code scanner may store one or more records of data that indicates the combination of flag
digits that must be contained within the barcodes to successfully decode as an EAN Two or Three label
barcode.
EAN Two Label DF – Absolute, Indicates if two EAN barcodes should be decoded as one
providing that the flag digits match the pre-specified values .
EAN Three Label DF – Absolute, Indicates if three EAN barcodes should be decoded as one
providing that the flag digits match the pre-specified values .
EAN 8 Flag Digit 1 DV – Absolute, The value of a Flag Digit that should be present in an EAN 8
barcode to be decoded as an EAN Two or Three label barcode (as specified in
an EAN 2/3 Label Control Report).
EAN 8 Flag Digit 2 DV – Absolute, The value of a Flag Digit that should be present in an EAN 8
barcode to be decoded as an EAN Two or Three label barcode (as specified in
an EAN 2/3 Label Control Report).
EAN 8 Flag Digit 3 DV – Absolute, The value of a Flag Digit that should be present in an EAN 8
barcode to be decoded as an EAN Two or Three label barcode (as specified in
an EAN 2/3 Label Control Report).
EAN 13 Flag Digit 1 DV – Absolute, The value of a Flag Digit that should be present in an EAN
13 barcode to be decoded as an EAN Two or Three label barcode (as
specified in an EAN 2/3 Label Control Report).
EAN 13 Flag Digit 2 DV – Absolute, The value of a Flag Digit that should be present in an EAN
13 barcode to be decoded as an EAN Two or Three label barcode (as
specified in an EAN 2/3 Label Control Report).
EAN 13 Flag Digit 3 DV – Absolute, The value of a Flag Digit that should be present in an EAN
13 barcode to be decoded as an EAN Two or Three label barcode (as
specified in an EAN 2/3 Label Control Report).
Add EAN 2/3 Label
Definition
Clear all EAN 2/3 Label
Definitions
DF – Absolute, Indicates that the EAN 2/3 Label Control Report contains a
definition of a new group of Flag Digits for the decoding of an EAN Two
Label or Three Label barcode.
DF – Absolute, Indicates that the all EAN 2/3 Label definitions stored in the
bar code reader should be erased.
18 Universal Serial Bus HID Point of Sale Usage Tables
Version 1.02 March 5, 2001
3.11 Other 1D Symbology Usages The usages in this section are used to configure the Decoder software within the Scanner for 1D
symbologies other than UPC/EAN.
BC412 DF – Absolute, Indicates if BC 412 barcodes should be decoded
Codabar DF – Absolute, Indicates if Codabar barcodes should be decoded
Code 128 DF – Absolute, Indicates if Code 128 barcodes should be decoded
Code 39 DF – Absolute, Indicates if Code 39 barcodes should be decoded
Code 93 DF – Absolute, Indicates if Code 93 barcodes should be decoded
Full ASCII Conversion DF – Absolute, Indicates if Code 39 Full ASCII conversion should be done
Interleaved 2 of 5 DF – Absolute, Indicates if Interleaved 2 of 5 barcodes should be decoded
Italian Pharmacy Code DF – Absolute, Indicates if Italian Pharmacy formatted Code 39 barcodes should be decoded
MSI/Plessey DF – Absolute, Indicates if MSI/Plessey barcodes should be decoded
Standard 2 of 5 IATA DF – Absolute, Indicates if Standard 2 of 5 barcodes with IATA spacing
should be decoded
Standard 2 of 5 DF – Absolute, Indicates if Standard 2 of 5 barcodes should be decoded
Transmit Codabar
Start/Stop
DF – Absolute, Indicates if Codabar start/stop characters should be
transmitted
Tri-Optic DF – Absolute, Indicates if Tri-Optic Code 39 barcodes should be decoded
UCC/EAN-128 DF – Absolute, Indicates if UCC/EAN-128 barcodes should be decoded and
output using standard label identifiers. This option overrides the none or
proprietary selection for the Data Prefix selection for Code 128 labels which
are not UCC/EAN-128 bar codes. Note: The scanner will decode the
UCC/EAN-128 tag, but if UCC/EAN-128 is not selected any Function 1
characters in the data stream will not be output as Group Seperator characters
per USS-128
3.11.1 Check Digit Usages
The usages in this section are used to specify how the decoder should process Check Digits for the specified
code types. Each 1D code type with a check digit should have its own logical collection. The presence of
these usages in the collection makes them applicable to the logical collection’s code type.
Check Digit NAry – A logical collection containing Check Digit selector usages.
Check Digit Disable SEL – Do not verify check digit for code type
Check Digit Enable
Interleaved 2 of 5
OPCC
Check Digit Enable
Interleaved 2 of 5 USS
Check Digit Enable
Standard 2 of 5 OPCC
SEL – Verify OPCC format check digits for Interleaved 2 of 5 barcodes
SEL – Verify USS format check digits for Interleaved 2 of 5barcodes
SEL – Verify OPCC format check digits for Standard 2 of 5 barcodes
Universal Serial Bus HID Point of Sale Usage Tables 19
Version 1.02 March 5, 2001
Check Digit Enable
Standard 2 of 5 USS
Check Digit Enable One
MSI Plessey Check
Check Digit Enable
Two MSI Plessey
Check Digit Enable
Two MSI Plessey
Check Digit Enable
Codabar
Check Digit Enable
Code 39
SEL – Verify USS format check digits for Standard 2 of 5 barcodes
SEL - Check for one MSI/Plessey check digit
SEL – Check for two MSI/Plessey check digits
SEL – Check for two MSI/Plessey check digits
SEL – Verify check digits for Codabar barcodes
SEL – Verify check digits for Code 39 barcodes
3.11.2 Transmit Check Digit Usages
The usages in this section are used to specify how the decoder should transmit Check Digits. Each 1D code
type with a check digit should have its own logical collection. The presence of these usages in the collection
makes them applicable to the logical collection’s code type. These usages only apply to 1D code types with
check digits.
Transmit Check Digit NAry – A logical collection containing Check Digit selector usages.
Disable Check Digit
Transmit
Enable Check Digit
Transmit
SEL – Do not transmit check digit for the code type.
SEL – Transmit the check digits for the code type.
3.12 2D Symbology Usages The usages in this section are used to configure the Decoder software within the Scanner for 2D
symbologies.
Aztec Code DF – Absolute, Indicates if Aztec barcodes should be decoded
Channel Code DF – Absolute, Indicates if Channel Code barcodes should be decoded
Code 16 DF – Absolute, Indicates if Code 16 barcodes should be decoded
Code 32 DF – Absolute, Indicates if Code 32 barcodes should be decoded
Code 49 DF – Absolute, Indicates if Code 49 barcodes should be decoded
Code One DF – Absolute, Indicates if Code One barcodes should be decoded
Colorcode DF – Absolute, Indicates if Colorcode barcodes should be decoded
Data Matrix DF – Absolute, Indicates if Data Matrix barcodes should be decoded
MaxiCode DF – Absolute, Indicates if Maxi Code barcodes should be decoded
MicroPDF DF – Absolute, Indicates if Micro PDF barcodes should be decoded
PDF-417 DF – Absolute, Indicates if PDF-417 barcodes should be decoded
PosiCode DF – Absolute, Indicates if PosiCode barcodes should be decoded
QR Code DF – Absolute, Indicates if QR Code barcodes should be decoded
20 Universal Serial Bus HID Point of Sale Usage Tables
Version 1.02 March 5, 2001
SuperCode DF – Absolute, Indicates if Super Code barcodes should be decoded
UltraCode DF – Absolute, Indicates if Ultra Code barcodes should be decoded
USD-5 (Slug Code) DF – Absolute, Indicates if USD-5 (Slug Code) barcodes should be decoded
VeriCode DF – Absolute, Indicates if VeriCode barcodes should be decoded
3.13 Decode Data Usages The usages in this section are used to by the Scanner to send decoded or read barcode data to the USB Host.
Decoded Data DV – Contains the ASCII data that was just decoded. Very long barcodes can
be sent to the USB host in chunks (see “Decode Data Continued”).
Symbology Identifier 1 DF – Contains the first character of the Symbology Identifier for the Barcode
that was just decoded. If the scanner does not provide this data, then it can
omit this usage from its report.
Symbology Identifier 2 DF – Contains the second Symbology Identifier (see Symbology Identifier 1)
Symbology Identifier 3 DF – Contains the third Symbology Identifier (see Symbology Identifier 1)
Decode Data Continued DF – When set, this bit indicates that the Decode data is continued with the
next report. This usage is needed for scanners that process 2D symbology
barcodes and “Dumb Scanners”. These barcodes can contain anywhere from
1 to 1024 bytes of data or more. The use of this continue bit enables the Bar
Code scanner to declare an output buffer in the size that it can handle given
available resources.
Bar Space Data DV – Contains barcode data that was read by a “Dumb Scanner”. The bar
code is represented as a stream of values with each value indicating the
relative length of a bar or a space (with the maximum allowed value
indicating an overflow). In most cases the units can be microseconds. But in
the case of slower devices such as wands, the data may need to be scaled
down to fit within the allocated size of the value. This type of scan data can
be useful for systems that evaluate the quality of barcodes or barcode scanner
systems. This type of data can also be useful in cases where the scanner is
reading a new code type that is not yet supported in the scanner (providing
that the appropriate decode software resides on the USB Host..
Scanner Data Accuracy DV – Contains the smallest unit of time that is reported by the Bar Code
scanner.
3.14 Raw Data Polarity Usages The usages in this section are used to by the Scanner to specify the polarity of the first raw data value.
Raw Data Polarity NAry – A logical collection containing Polarity selector usages.
Polarity Inverted Bar
Code
Polarity Normal Bar
Code
SEL – A barcode was read with a Non-White margin. The first timing value
in the Bar Space Data (the margin) is of a dark element.
SEL – A barcode was read with a White margin. The first timing value in the
Bar Space Data (the margin) is of a White element.
Universal Serial Bus HID Point of Sale Usage Tables 21
Version 1.02 March 5, 2001
3.15 Decode Data Length Usages The usages in this section can be placed in a logical collection for one or more linear code types (Code 39,
Standard 2 of 5 and Interleaved 2 of 5 for example) to specify the size of the barcodes that are to be decoded.
These length usages will be specified by the USB Host and honored (where supported) by the Scanning
device. These usages can not be used to specify an overall min/max length for the scanner.
Minimum Length to
Decode
Maximum Length to
Decode
Discrete Length to
Decode 1
Discrete Length to
Decode 2
DV – Contains the smallest length that may be decoded for a given code type.
0 = No Minimum
DV – Contains the largest length that may be decoded for a given code type.
0 = No Maximum
DV – Contains a length that may be decoded for a given code type. 0 = Not
Specified.
DV – Contains a length that may be decoded for a given code type. 0 = Not
Specified
3.15.1 Data Length Method Usages
The usages in this section are used to specify how lengths should be checked by the Scanner for a specific
code type. These usages are only needed when the Scanner allows the user to select either a range of lengths
or one or more discrete lengths. If these usages are not defined, then discrete length definitions will take
precedence over defined length ranges.
Data Length Method NAry – A logical collection containing DL Method selector usages.
DL Method Read any SEL – Bar Codes of any length should be read for the code type
DL Method Check in
Range
DL Method Check for
Discrete
SEL – Bar Codes should only be read within the specified range
SEL – Bar Codes should only be read for the one or more specified lengths
22 Universal Serial Bus HID Point of Sale Usage Tables
Version 1.02 March 5, 2001
4 Weighing Devices (0x8D) This section provides descriptions of the usages employed by weighing devices. Any features not listed may
be implemented by vendor specific usages.
Table 3: Scale Usage Page
Usage ID Usage Name Usage Type Section
00 Undefined
01 Weighing Device CA 0
01-1F Reserved
20 Scale Device CL 4.2
21 Scale Class I Metric CL 4.2
22 Scale Class I Metric SEL 4.2
23 Scale Class II Metric SEL 4.2
24 Scale Class III Metric SEL 4.2
25 Scale Class IIIL Metric SEL 4.2
26 Scale Class IV Metric SEL 4.2
27 Scale Class III English SEL 4.2
28 Scale Class IIIL English SEL 4.2
29 Scale Class IV English SEL 4.2
2A Scale Class Generic SEL 4.2
2B-2F Reserved
30 Scale Attribute Report CL 4.3
31 Scale Control Report CL 4.3
32 Scale Data Report CL 4.3
33 Scale Status Report CL 4.3
34 Scale Weight Limit Report CL 4.3
35 Scale Statistics Report CL 4.3
36-3F Reserved
40 Data Weight DV 4.4
41 Data Scaling CV 4.4
42-4F Reserved
50 Weight Unit CL 4.4.1
51 Weight Unit Milligram SEL 4.4.1
52 Weight Unit Gram SEL 4.4.1
53 Weight Unit Kilogram SEL 4.4.1
54 Weight Unit Carats SEL 4.4.1
55 Weight Unit Taels SEL 4.4.1
56 Weight Unit Grains SEL 4.4.1
57 Weight Unit Pennyweights SEL 4.4.1
58 Weight Unit Metric Ton SEL 4.4.1
Universal Serial Bus HID Point of Sale Usage Tables 23
Version 1.02 March 5, 2001
Usage ID Usage Name Usage Type Section
59 Weight Unit Avoir Ton SEL 4.4.1
5A Weight Unit Troy Ounce SEL 4.4.1
5B Weight Unit Ounce SEL 4.4.1
5C Weight Unit Pound SEL 4.4.1
5D-5F Reserved
60 Calibration Count DV 4.4.2
61 Re-Zero Count DV 4.4.2
62-6F Reserved
70 Scale Status CL 4.5
71 Scale Status Fault SEL 4.5
72 Scale Status Stable at Center of Zero
SEL 4.5
73 Scale Status In Motion SEL 4.5
74 Scale Status Weight Stable SEL 4.5
75 Scale Status Under Zero SEL 4.5
76 Scale Status Over Weight Limit SEL 4.5
77 Scale Status Requires Calibration
SEL 4.5
78 Scale Status Requires Re- zeroing
SEL 4.5
79-7F Reserved
80 Zero Scale OOC 4.6
81 Enforced Zero Return OOC 4.6
82-FFFF Reserved
4.1 Application Usages Configurations that apply to the Scale Usage Table.
Scale CA – General weighing device collection
4.2 Class Usages The usages in this section are the primary types of scales. Scale classifications are those recognized by the
National Institute of Standards and Technology (NIST). A generic classification has been provided for scales
that fall outside the NIST classification.
Set the Constant flag of the associated main item if the host cannot modify the Scale Class.
Weighing Device CL – This collection can contain one or more weighting device or Scale related usages.
Scale Class CL – This collection contains Scale Class selectors.
Scale Class I Metric SEL – Precision laboratory weighing device. Measurement units are
typically in milligrams.
24 Universal Serial Bus HID Point of Sale Usage Tables
Version 1.02 March 5, 2001
Scale Class II Metric SEL – Laboratory weighing device; precious metals and gem weighing,
grain test scales. Measurement units are typically in milligrams.
Scale Class III Metric SEL – All retail weighing not otherwise specified; grain test scales, retail
precious metals and semi-precious gem weighing, animal scales, postal
scales, scales used to determine laundry charges and vehicle on-board
weighing systems. Measurement units are typically in grams.
Scale Class IIIL Metric SEL – Vehicle, axle-load, livestock, railway track scales, crane, hopper
scales, and vehicle on-board weighing systems. Measurement units are in
typically kilograms.
Scale Class IV Metric SEL – Wheel load weighers and portable axle load weighers used for
highway weight enforcement. Measurement units are typically in grams.
Scale Class III English SEL – All retail weighing not otherwise specified; grain test scales, retail
precious metals and semi-precious gem weighing, animal scales, postal
scales, scales used to determine laundry charges and vehicle on-board
weighing systems. Measurement units are typically in fractions of pounds.
Scale Class IIIL English SEL – Vehicle, axle-load, livestock, railway track scales, crane, hopper
scales, and vehicle on-board weighing systems. Measurement units are
typically in pounds.
Scale Class IV English SEL – Wheel load weighers and portable axle load weighers used for
highway weight enforcement. Measurement units are typically in fractions
of pounds.
Scale Class Generic SEL – scales not falling under previous classifications
4.3 Report Usages The usages in this section are defined to standardize the groupings of reports that are sent between the USB
Host and the scale.
Scale Attribute Report CL – A Feature report that the scale uses to specify its static attributes.
Scale Control Report CL – A Feature report that a USB Host uses to control the operation of the scale, namely to get or set the state of the Enforced Zero Return control.
Scale Data Report CL – Input report that the Scale uses to transmit the current status and weight
data to the USB Host. This collection typically contains the Scale Unit, Data Scaling and Data Weight usages.
Scale Status Report CL – Input report that the Scale uses to transmit changes in device status to the USB Host.
Scale Weight Limit
Report
CL – A Feature report that the host uses to identify the maximum weight limit
of the scale. This collection typically contains the Scale Unit, Data Scaling
and Data Weight usages.
Scale Statistics Report CL – A Feature report that the host uses to query the current operational
statistics of the scale. These statistics include the number of times the scale
has been re-zeroed or calibrated.
Note: A usage can be found in more than one report. The report collections are used to distinguish their
purpose.
Universal Serial Bus HID Point of Sale Usage Tables 25
Version 1.02 March 5, 2001
4.4 Data Usages The usages in this section are used to transmit scale related data to the USB Host. When a Data usage is used
to identify the Weight Limit, the device should set the Constant flag of the associated main item(s) if the
host cannot modify the Weight Limit.
Data Weight DV – Contains a binary value representing the weight present on the scale.
Data Scaling DV – A numeric value representing the scaling applied to the data as a base
ten exponent. Range is from 127 to –127.
4.4.1 Weight Units
These are usage selections that describe the units of the data being reported. Set the Constant flag of the
associated main item if the host cannot modify the Weight Unit.
Weight Unit CL – This collection contains Scale Unit selectors.
Weight Unit Milligram SEL – data units are in milligrams
Weight Unit Gram SEL – data units are in grams
Weight Unit Kilogram SEL – data units are in kilograms
Weight Unit Carats SEL – data units are in Carats
Weight Unit Taels SEL – data units are in Taels
Weight Unit Grains SEL – data units are in Grains
Weight Unit Pennyweights SEL – data units are in Pennyweights
Weight Unit Metric Ton SEL – data units are in metric ton
Weight Unit Avoir Ton SEL – data units are in avoir ton
Weight Unit Troy Ounce SEL – data units are in troy ounces
Weight Unit Ounce SEL – data units are in ounces
Weight Unit Pound SEL – data units are in pounds
4.4.2 Statistics Data
These usages describe the various statistical information that may be reported by the scale.
Calibration Count DV – number of times that the scale has been calibrated since manufacture
Re-zero Count DV – number of times the scale has been zeroed since power on
4.5 Scale Status Usages The usages in this section are used by the scale to transmit device status to the USB Host.
Scale Status CL – This collection contains Scale Status selectors
Scale Status Fault SEL – some internal scale fault has occurred.
Scale Status Stable at
Center of Zero
SEL – the weight is stable and at zero.
Scale Status In Motion SEL – the scale is not stable; i.e. moving.
26 Universal Serial Bus HID Point of Sale Usage Tables
Version 1.02 March 5, 2001
Scale Status Weight
Stable
Scale Status Under
Zero
Scale Status Over
Weight Limit
Scale Status Requires
Calibration
Scale Status Requires
Re-zeroing
SEL – weight on scale is stable and valid.
SEL –weight is stable but is measured at less than zero.
SEL –weight is stable but exceed the capacity of the scale.
SEL -the scale must be calibrated before data is available.
SEL -the scale must be zeroed before data is available.
4.6 Device Control Usages The usages in this section are used by the USB Host to control the operation of the scale.
Zero Scale OOC – When enabled, the scale will attempt to set the current weight on the
scale as the zero weigh point.
Enforced Zero Return OOC – When enabled, the scale will require that the weight on the scale
must return to zero between weight requests
Universal Serial Bus HID Point of Sale Usage Tables 27
Version 1.02 March 5, 2001
5 Usage Page for Magnetic Stripe Reader (MSR) (0x8E) This page provides usage definitions that may be used in conjunction with Magnetic Stripe Reading devices,
whether or not such devices conform fully to external standards.
Table 4: Magnetic Stripe Reader (MSR) Usage Page
Usage ID Usage Name Usage Type Section
00 Undefined
01 MSR Device Read-Only CA 5.1
02 to 0x10 Reserved
0x11 Track 1 Length SF, DF, SEL 5.2.1
0x12 Track 2 Length SF, DF, SEL 5.2.1
0x13 Track 3 Length SF, DF, SEL 5.2.1
0x14 Track JIS Length SF, DF, SEL 5.2.1
0x15 to 0x1F Reserved
0x20 Track Data SF, DF, SEL 5.2.1
0x21 Track 1 Data SF, DF, SEL 5.2.1
0x22 Track 2 Data SF, DF, SEL 5.2.1
0x23 Track 3 Data SF, DF, SEL 5.2.1
0x24 Track JIS Data SF, DF, SEL 5.2.1
0x25 to 0xFFFF
Reserved
28 Universal Serial Bus HID Point of Sale Usage Tables
Version 1.02 March 5, 2001
5.1 Application Usages
MSR Read only CA-The device is a reader of MSR cards
5.2 Other Usages
5.2.1 Track information usages.
Track 1 Data SF, DF- Used in feature reports to indicate this device can read track 1from
the card, or to enable/disable the reading of track 1 data.
DV-Used in reports to indicate the source of the associated data1
Track 1 Length DV – Used in reports to indicate the length of track data
Track 2 Data
Track 2 Length
Analogous to Track 1 above, applies to track 2
Track 3 Data
Track 3 Length
Analogous to Track 1 above, applies to track 3
Track JIS Data
Track JIS Length
Analogous to Track 1 above, applies to JIS track
Track Data DV – Used to indicate data from all tracks, when track data is not separated
by reader, but is packed. Individual tracks are then normally located using
the “Track n Length” fields, and appear in the same order as the track length
fields. This allows a device to implement several different reports and choose
the shortest one that accommodates all data read from the magnetic stripe,
rather than always sending a report large enough to accommodate the largest
possible report.
1 The data is a number of octets that contain the full bit stream extracted from the magnetic stripe. The first
bit read from the track will be delivered as the LSB of the first octet of “Track # Data”. The eighth bit read
from the track will be the MSB of the first octet. The ninth bit from the track will be the LSB of the second
octet. And so forth.
Universal Serial Bus HID Point of Sale Usage Tables 29
Version 1.02 March 5, 2001
6 Appendix
6.1 Barcode Device Examples This section provides examples of common implementations of controls. Pseudocode is used to describe the
Main, Global and Local items.
There are a number of cases where Usage Minimum or Usage Maximum could have been used in these
examples, but they were omitted for clarity.
6.1.1 Settings Report
USAGE (Settings Report)
COLLECTION (Logical)
REPORT_ID (1)
USAGE (Data Prefix)
COLLECTION (Logical)
LOGICAL_MINIMUM (0)
LOGICAL_MAXIMUM (4)
REPORT_SIZE (3)
REPORT_COUNT (1)
USAGE_MINIMUM (AIM Prefix)
USAGE_MAXIMUM (Proprietary Prefix)
OUTPUT (Data,Ary,Abs)
END_COLLECTION
LOGICAL_MAXIMUM (15)
REPORT_SIZE (4)
USAGE (Scanner Read Confidence)
OUTPUT (Data,Var,Abs)
LOGICAL_MAXIMUM (1)
REPORT_SIZE (1)
USAGE (Fragment Decoding)
OUTPUT (Data,Var,Abs)
LOGICAL_MAXIMUM (255)
REPORT_SIZE (8)
REPORT_COUNT (8)
USAGE (Active Time)
USAGE (Laser On Time)
USAGE (Lockout Time)
USAGE (Motor Timeout)
USAGE (Aim Duration)
USAGE (Good Read Lamp Duration)
USAGE (Good Read Tone Length)
USAGE (Not on File Volume)
OUTPUT (Data,Var,Abs)
LOGICAL_MAXIMUM (15)
REPORT_SIZE (4)
REPORT_COUNT (3)
USAGE (Good Read Tone Volume)
USAGE (Good Read Tone Frequency)
USAGE (Good Read Lamp Intensity)
OUTPUT (Data,Var,Abs)
USAGE (Good Read When to Write)
COLLECTION (Logical)
30 Universal Serial Bus HID Point of Sale Usage Tables
Version 1.02 March 5, 2001
LOGICAL_MAXIMUM (3)
REPORT_SIZE (2)
USAGE_MINIMUM (After Decode)
USAGE_MAXIMUM (No Beep/Lamp use at all)
OUTPUT (Data,Ary,Abs)
END_COLLECTION
LOGICAL_MAXIMUM (1)
REPORT_SIZE (1)
REPORT_COUNT (5)
USAGE (Aiming Laser Pattern)
USAGE (Parameter Scanning)
USAGE (Good Read LED)
USAGE (No Read Message)
USAGE (Powerup Beep )
OUTPUT (Data,Var,Abs)
LOGICAL_MAXIMUM (4)
REPORT_SIZE (3)
USAGE_MINIMUM (Blinking Laser On)
USAGE_MAXIMUM (Laser stays on after Trigger release)
END_COLLECTION
Figure 1: Example Settings Report
Bit
Byte 7 6 5 4 3 2 1 0
0 Report ID = 1
1 Fragment
Decoding
Scanner Read Confidence Data Prefix (AIM Prefix,
Proprietary Prefix)
2 Active Time
3 Laser On Time
4 Lockout Time
5 Motor Lockout
6 Aim Duration
7 Good Read Lamp Duration
8 Good Read Tone Length
9 Not on File Volume
10 Good Read Tone Frequency Good Read Tone Volume
11 Good Read When to Indicate (RGWTI After
Decode - RGWTI No Beep/Lamp use at all)
Good Read Lamp Intensity
12 Trigger Mode (Blinking Laser
On – Laser stays on after Trigger
Release)
Powerup
Beep
No Read
Message
Good
Read
LED
Para-
meter
Scanning
Aiming
Laser
Pattern
Universal Serial Bus HID Point of Sale Usage Tables 31
Version 1.02 March 5, 2001
6.1.2 Scanned Data Report
USAGE (Scanned Data Report)
COLLECTION (Logical)
REPORT_ID (2)
LOGICAL_MINIMUM (0)
LOGICAL_MAXIMUM (255)
REPORT_SIZE (8)
REPORT_COUNT (3)
USAGE (Symbology Identifier 1)
USAGE (Symbology Identifier 2)
USAGE (Symbology Identifier 3)
INPUT (Data,Var,Abs)
REPORT_COUNT (50)
USAGE (Decoded Data)
INPUT (Data,Var,Abs,Buf)
LOGICAL_MAXIMUM (1)
REPORT_SIZE (1)
REPORT_COUNT (8)
USAGE (Decode Data Continued)
INPUT (Data,Var,Abs)
END_COLLECTION
Figure 2: Example Scanned Data Report
Bit
Byte 7 6 5 4 3 2 1 0
0 Report ID = 2
1 Symbology Identifier 1
2 Symbology Identifier 2
3 Symbology Identifier 3
4-53 Decoded Data [1-50]
54 Padding Decode
Data
Continued
32 Universal Serial Bus HID Point of Sale Usage Tables
Version 1.02 March 5, 2001
6.1.3 Raw Scanned Data Report
USAGE (Raw Scanned Data Report)
COLLECTION (Logical)
REPORT_ID (3)
LOGICAL_MINIMUM (0)
LOGICAL_MAXIMUM (255)
REPORT_SIZE (8)
REPORT_COUNT (50)
USAGE (Bar Space Data)
INPUT (Data,Var,Abs)
REPORT_COUNT (1)
USAGE (Scanner Data Accuracy)
LOGICAL_MAXIMUM (1)
REPORT_SIZE (1)
REPORT_COUNT (1)
USAGE (Decode Data Continued)
INPUT (Data,Var,Abs)
USAGE (Raw Data Polarity)
COLLECTION (Logical)
REPORT_SIZE (2)
USAGE_MINIMUM (Inverted Bar Code)
USAGE_MAXIMUM (Normal Bar Code)
INPUT (Data,Ary,Abs)
END_COLLECTION
REPORT_COUNT (5)
REPORT_SIZE (1)
INPUT (Cnst,Val,Abs)
END_COLLECTION
Figure 3: Example Raw Scanned Data Report
Bit
Byte 7 6 5 4 3 2 1 0
0 Report ID = 3
1-50 Bar Space Data [1-50]
51 Scanner Data Accuracy
52 Padding Raw Data Polarity* Decode
Data
Continued
*(Inverted Bar Code Data-Normal Bar Code Data)
Universal Serial Bus HID Point of Sale Usage Tables 33
Version 1.02 March 5, 2001
6.1.4 Trigger Report
USAGE (Trigger Report)
COLLECTION (Logical)
REPORT_ID (4)
LOGICAL_MINIMUM (0)
LOGICAL_MAXIMUM (1)
REPORT_SIZE (1)
REPORT_COUNT (8)
USAGE (Power On Reset Scanner)
USAGE (Prevent Read of Barcodes)
USAGE (Initiate Barcode Read)
USAGE (Commit Parameters to NVM)
USAGE (Set parameter default values)
USAGE (Sound Error Beep)
USAGE (Sound Good Read Beep)
USAGE (Sound Not On File Beep)
OUTPUT (Data,Var,Rel,Vol)
END_COLLECTION
Figure 4: Example Trigger Report
Bit
Byte 7 6 5 4 3 2 1 0
0 Report ID = 4
1 Sound Sound Sound Set Commit Initiate Prevent Power on Not on Good Error Para- Param- Barcode Read of Reset File Beep Read Beep meter eters to Read Barcodes Scanner Beep Default NVM
Values
34 Universal Serial Bus HID Point of Sale Usage Tables
Version 1.02 March 5, 2001
6.1.5 Status Report
USAGE (Status Report)
COLLECTION (Logical)
REPORT_ID (5)
LOGICAL_MINIMUM (0)
LOGICAL_MAXIMUM (1)
REPORT_SIZE (1)
REPORT_COUNT (8)
USAGE (Bar Code Present)
USAGE (Beeper State)
USAGE (Laser State)
USAGE (Motor State)
USAGE (Trigger State)
USAGE (Scanner In Cradle)
USAGE (Scanner In Range)
USAGE (Parameters Changed)
INPUT (Data,Var,Rel,Vol)
END_COLLECTION
Figure 5: Example Status Report
Bit
Byte 7 6 5 4 3 2 1 0
0 Report ID = 5
1 Para-
meters
Changed
Scanner
in Range
Scanner
in Cradle
Trigger
State
Motor
State
Laser
State
Beeper
State
Bar Code
Present
6.1.6 UPC/EAN Control Report
USAGE (UPC/EAN Control Report)
COLLECTION (Logical)
REPORT_ID (6)
REPORT_SIZE(4)
USAGE (Check)
COLLECTION (Logical)
LOGICAL_MAXIMUM (5)
USAGE_MINIMUM (Check Disable Price)
USAGE_MAXIMUM (Check Enable European 5 digit Price)
OUTPUT (Data,Ary,Abs)
COLLECTION_END
USAGE (Periodical)
COLLECTION (Logical)
LOGICAL_MAXIMUM (3)
REPORT_SIZE (4)
USAGE_MINIMUM (Periodical Auto-Discriminate +2)
USAGE_MAXIMUM (Periodical Ignore +2)
OUTPUT (Data,Ary,Abs)
COLLECTION_END
USAGE (Periodical)
COLLECTION (Logical)
USAGE_MINIMUM (Periodical Auto-Discriminate +5)
Universal Serial Bus HID Point of Sale Usage Tables 35
Version 1.02 March 5, 2001
USAGE_MAXIMUM (Periodical Ignore +5)
OUTPUT (Data,Ary,Abs)
COLLECTION_END
LOGICAL_MINIMUM (0)
LOGICAL_MAXIMUM (1)
REPORT_SIZE (1)
REPORT_COUNT (24)
USAGE (Bookland EAN)
USAGE (Convert EAN 8 to 13 Type)
USAGE (Convert UPC A to EAN-13)
USAGE (Convert UPC-E to A)
USAGE (EAN-13)
USAGE (EAN-8)
USAGE (EAN-99 128_Mandatory)
USAGE (EAN-99 P5/128_Optional)
USAGE (Enable EAN Two Label)
USAGE (UPC/EAN)
USAGE (UPC/EAN Coupon Code )
USAGE (UPC-A)
USAGE (UPC-A with 128 Mandatory)
USAGE (UPC-A with 128 Optional)
USAGE (UPC-A with P5 Optional)
USAGE (UPC-E)
USAGE (UPC-E1)
OUTPUT (Data,Var,Abs)
END_COLLECTION
Figure 6: Example UPC/EAN Control Report
Bit
Byte 7 6 5 4 3 2 1 0
0 Report ID = 6
1 UPC/EAN + 2 Periodicals (Auto-Discriminate
+2 Periodicals - Ignore +2 Periodicals)
Price/Weight Check (Disable Price Check -
Enable European 5 digit Price Check )
2 EAN-8 EAN-13 Convert
UPC-E to
A
Convert
UPC A
to EAN-
13
Convert
EAN 8 to
13 Type
Book-
land
EAN
UPC/EAN + 5
Periodicals (Auto-
Discriminate +5
Periodicals - Ignore
+5 Periodicals)
3 UPC-A
with 128
Optional
UPC-A
with 128
Manda-
tory
UPC-A UPC/
EAN
Coupon
Code
UPC/
EAN
Enable
EAN
Two
Label
EAN-99
P5/128
Optional
EAN-99
128-
Manda-
tory
4 Padding UPC-E1 UPC-E UPC-A
with P5
Optional
36 Universal Serial Bus HID Point of Sale Usage Tables
Version 1.02 March 5, 2001
6.1.7 EAN 2/3 Label Control Report
The following Examples show the intended uses of the EAN Two and Three label usages. A bar code reader
that supports EAN Two or Three label decoding can receive one or more Two/Three label definitions and
store them. To change one of the stored definitions, all of the definitions need to be cleared out first and
then the changed definitions can be sent to the bar code reader.
Figure 7: Example EAN 2/3 Label Control Report: Add Two Label
Definition EAN8+EAN8
Bit
Byte 7 6 5 4 3 2 1 0
0 Report ID = 7
1 Padding Add EAN
2/3 Label
Definition
EAN
Two
Label
2 EAN 8 Flag Digit 1
3 EAN 8 Flag Digit 2
Figure 8: Example EAN 2/3 Label Control Report: Add Two Label Definition EAN8+EAN13
Bit
Byte 7 6 5 4 3 2 1 0
0 Report ID = 7
1 Padding Add EAN
2/3 Label
Definition
EAN
Two
Label
2 EAN 8 Flag Digit 1
3 EAN 13 Flag Digit 2
Figure 9: Example EAN 2/3 Label Control Report: Add Two Label Definition EAN13+EAN13
Bit
Byte 7 6 5 4 3 2 1 0
0 Report ID = 7
1 Padding Add EAN
2/3 Label
Definition
EAN
Two
Label
2 EAN 13 Flag Digit 1
3 EAN 13 Flag Digit 2
Universal Serial Bus HID Point of Sale Usage Tables 37
Version 1.02 March 5, 2001
Figure 10: Example EAN 2/3 Label Control Report: Add Three Label Definition All EAN8
Bit
Byte 7 6 5 4 3 2 1 0
0 Report ID = 7
1 Padding Add EAN
2/3 Label
Definition
EAN
Three
Label
2 EAN 8 Flag Digit 1
3 EAN 8 Flag Digit 2
4 EAN 8 Flag Digit 3
Figure 11: Example EAN 2/3 Label Control Report: Add Three Label Definition EAN8+EAN8+EAN13
Bit
Byte 7 6 5 4 3 2 1 0
0 Report ID = 7
1 Padding Add EAN
2/3 Label
Definition
EAN
Three
Label
2 EAN 8 Flag Digit 1
3 EAN 8 Flag Digit 2
4 EAN 13 Flag Digit 3
Figure 12: Example EAN 2/3 Label Control Report: Add Three Label Definition EAN8+EAN13+EAN13
Bit
Byte 7 6 5 4 3 2 1 0
0 Report ID = 7
1 Padding Add EAN
2/3 Label
Definition
EAN
Three
Label
2 EAN 8 Flag Digit 1
3 EAN 13 Flag Digit 2
4 EAN 13 Flag Digit 3
38 Universal Serial Bus HID Point of Sale Usage Tables
Version 1.02 March 5, 2001
Figure 13: Example EAN 2/3 Label Control Report: Add Three Label Definition All EAN 13
Bit
Byte 7 6 5 4 3 2 1 0
0 Report ID = 7
1 Padding Add EAN
2/3 Label
Definition
EAN
Three
Label
2 EAN 13 Flag Digit 1
3 EAN 13 Flag Digit 2
4 EAN 13 Flag Digit 3
Figure 14: Example EAN 2/3 Label Control Report: Clear all Two Label Definitions
Bit
Byte 7 6 5 4 3 2 1 0
0 Report ID = 7
1 Padding Clear all
EAN 2/3
Label
Defin-
itions
EAN
Two
Label
Figure 15: Example EAN 2/3 Label Control Report: Clear all Three Label Definitions
Bit
Byte 7 6 5 4 3 2 1 0
0 Report ID = 7
1 Padding Clear all
EAN 2/3
Label
Defin-
itions
EAN
Three
Label
Universal Serial Bus HID Point of Sale Usage Tables 39
Version 1.02 March 5, 2001
6.1.8 Code 39 Control Report
USAGE (Code 39 Control Report)
COLLECTION (Logical)
REPORT_ID (7)
LOGICAL_MINIMUM (0)
LOGICAL_MAXIMUM (1)
REPORT_SIZE (1)
REPORT_COUNT (1)
USAGE (Code 39)
OUTPUT (Data,Var,Abs)
USAGE (Data Length Method)
COLLECTION (Logical)
REPORT_SIZE (2)
LOGICAL_MAXIMUM (3)
REPORT_COUNT (1)
USAGE_MINIMUM (Read any Length)
USAGE_MAXIMUM (Check for Discrete Lengths)
OUTPUT (Data,Ary,Abs)
COLLECTION_END
USAGE (Transmit Check Digit)
COLLECTION (Logical)
LOGICAL_MAXIMUM (1)
REPORT_SIZE (1)
REPORT_COUNT (1)
USAGE_MINIMUM (Disable Check Digit Transmit)
USAGE_MAXIMUM (Enable Check Digit Transmit)
OUTPUT (Data,Ary,Abs)
COLLECTION_END
USAGE (Check Digit)
COLLECTION (Logical)
LOGICAL_MAXIMUM (9)
REPORT_SIZE (4)
REPORT_COUNT (1)
USAGE_MINIMUM (Check Digit Disable)
USAGE_MAXIMUM (Enable Code 39 Check Digit)
OUTPUT (Data,Ary,Abs)
COLLECTION_END
LOGICAL_MAXIMUM (255)
REPORT_SIZE (8)
REPORT_COUNT (4)
USAGE (Minimum Length to Decode)
USAGE (Maximum Length to Decode)
USAGE (First Discrete Length to Decode)
USAGE (Second Discrete Length to Decode)
OUTPUT (Data,Var,Abs)
REPORT_SIZE (1)
REPORT_COUNT (2)
LOGICAL_MAXIMUM (1)
USAGE (Full ASCII Conversion)
USAGE (Tri-Optic )
OUTPUT (Data,Var,Abs)
END_COLLECTION
40 Universal Serial Bus HID Point of Sale Usage Tables
Version 1.02 March 5, 2001
Figure 16: Example Code 39 Control Report
Bit
Byte 7 6 5 4 3 2 1 0
0 Report ID = 8
1 Code 39 Check Digit (Check Digit Disable –
Check Digit Code 39 Enable)
Transmit
Code 39
Check
Digit
Code 39 Length Type
(Read Any Length –
Check for Discrete
Lengths)
Code 39
2 Code 39 Minimum Length
3 Code 39 Maximum Length
4 Code 39 Discrete Length 1
5 Code 39 Discrete Length 2
6 Padding Tri-Optic
Code 39
Code 39
Full
ASCII
Universal Serial Bus HID Point of Sale Usage Tables 41
Version 1.02 March 5, 2001
6.1.9 Interleaved 2 of 5 Control Report
USAGE (Interleaved 2 of 5 Control Report)
COLLECTION (Logical)
REPORT_ID (8)
LOGICAL_MINIMUM (0)
LOGICAL_MAXIMUM (1)
REPORT_SIZE (1)
REPORT_COUNT (1)
USAGE (Interleaved 2 of 5)
OUTPUT (Data,Var,Abs)
USAGE (Data Length Method)
COLLECTION (Logical)
REPORT_SIZE (2)
LOGICAL_MAXIMUM (3)
REPORT_COUNT (1)
USAGE_MINIMUM (Read any Length)
USAGE_MAXIMUM (Check for Discrete Lengths)
OUTPUT (Data,Ary,Abs)
COLLECTION_END
USAGE (Transmit Check Digit)
COLLECTION (Logical)
LOGICAL_MAXIMUM (1)
REPORT_SIZE (1)
REPORT_COUNT (1)
USAGE_MINIMUM (Disable Check Digit Transmit)
USAGE_MAXIMUM (Enable Check Digit Transmit)
OUTPUT (Data,Ary,Abs)
COLLECTION_END
USAGE (Check Digit)
COLLECTION (Logical)
LOGICAL_MAXIMUM (9)
REPORT_SIZE (4)
REPORT_COUNT (1)
USAGE_MINIMUM (Check Digit Disable)
USAGE_MAXIMUM (Enable Code 39 Check Digit)
OUTPUT (Data,Ary,Abs)
COLLECTION_END
LOGICAL_MAXIMUM (255)
REPORT_SIZE (8)
REPORT_COUNT (4)
USAGE (Minimum Length to Decode)
USAGE (Maximum Length to Decode)
USAGE (First Discrete Length to Decode)
USAGE (Second Discrete Length to Decode)
OUTPUT (Data,Var,Abs)
END_COLLECTION
42 Universal Serial Bus HID Point of Sale Usage Tables
Version 1.02 March 5, 2001
Figure 17: Example Interleaved 2 of 5 Control Report
Bit
Byte 7 6 5 4 3 2 1 0
0 Report ID = 9
1 I 2 of 5 Check Digit (Check Digit Disable –
Check Digit Code 39 Enable)
Transmit
I 2 of 5
Check
Digit
I 2 of 5 Length Type
(Read Any Length –
Check for Discrete
Lengths)
Inter-
leaved 2
of 5
2 I 2 of 5 Minimum Length
3 I 2 of 5 Maximum Length
4 I 2 of 5 Discrete Length 1
5 I 2 of 5 Discrete Length 2
Universal Serial Bus HID Point of Sale Usage Tables 43
Version 1.02 March 5, 2001
6.1.10 Standard 2 of 5 Control Report
USAGE (Standard 2 of 5 Control Report)
COLLECTION (Logical)
REPORT_ID (9)
LOGICAL_MINIMUM (0)
LOGICAL_MAXIMUM (1)
REPORT_SIZE (1)
REPORT_COUNT (1)
USAGE (Standard 2 of 5)
OUTPUT (Data,Var,Abs)
USAGE (Data Length Method)
COLLECTION (Logical)
REPORT_SIZE (2)
LOGICAL_MAXIMUM (3)
REPORT_COUNT (1)
USAGE_MINIMUM (Read any Length)
USAGE_MAXIMUM (Check for Discrete Lengths)
OUTPUT (Data,Ary,Abs)
COLLECTION_END
USAGE (Transmit Check Digit)
COLLECTION (Logical)
LOGICAL_MAXIMUM (1)
REPORT_SIZE (1)
REPORT_COUNT (1)
USAGE_MINIMUM (Disable Check Digit Transmit)
USAGE_MAXIMUM (Enable Check Digit Transmit)
OUTPUT (Data,Ary,Abs)
COLLECTION_END
USAGE (Check Digit)
COLLECTION (Logical)
LOGICAL_MAXIMUM (9)
REPORT_SIZE (4)
REPORT_COUNT (1)
USAGE_MINIMUM (Check Digit Disable)
USAGE_MAXIMUM (Enable Code 39 Check Digit)
OUTPUT (Data,Ary,Abs)
COLLECTION_END
LOGICAL_MAXIMUM (255)
REPORT_SIZE (8)
REPORT_COUNT (4)
USAGE (Minimum Length to Decode)
USAGE (Maximum Length to Decode)
USAGE (First Discrete Length to Decode)
USAGE (Second Discrete Length to Decode)
OUTPUT (Data,Var,Abs)
LOGICAL_MAXIMUM (1)
REPORT_SIZE (1)
REPORT_COUNT (1)
USAGE (Standard 2 of 5 IATA)
OUTPUT (Data,Var,Abs)
END_COLLECTION
44 Universal Serial Bus HID Point of Sale Usage Tables
Version 1.02 March 5, 2001
Figure 18: Example Standard 2 of 5 Control Report
Byte 7 6 5 4 3 2 1 0
0 Report ID = 10
1 S 2 of 5 Check Digit (Check Digit Disable –
Check Digit Code 39 Enable)
Transmit
S 2 of 5
Check
Digit
S 2 of 5 Length Type
(Read Any Length –
Check for Discrete
Lengths)
Standard
2 of 5
2 S 2 of 5 Minimum Length
3 S 2 of 5 Maximum Length
4 S 2 of 5 Discrete Length 1
5 S 2 of 5 Discrete Length 2
6 Padding Standard
2 of 5
IATA
Universal Serial Bus HID Point of Sale Usage Tables 45
Version 1.02 March 5, 2001
6.1.11 MSI Plessey Control Report
USAGE (MSI Plessey Control Report)
COLLECTION (Logical)
REPORT_ID (10)
LOGICAL_MINIMUM (0)
LOGICAL_MAXIMUM (1)
REPORT_SIZE (1)
REPORT_COUNT (1)
USAGE (MSI/Plessey)
OUTPUT (Data,Var,Abs)
USAGE (Data Length Method)
COLLECTION (Logical)
REPORT_SIZE (2)
LOGICAL_MAXIMUM (3)
REPORT_COUNT (1)
USAGE_MINIMUM (Read any Length)
USAGE_MAXIMUM (Check for Discrete Lengths)
OUTPUT (Data,Ary,Abs)
COLLECTION_END
USAGE (Transmit Check Digit)
COLLECTION (Logical)
LOGICAL_MAXIMUM (1)
REPORT_SIZE (1)
REPORT_COUNT (1)
USAGE_MINIMUM (Disable Check Digit Transmit)
USAGE_MAXIMUM (Enable Check Digit Transmit)
OUTPUT (Data,Ary,Abs)
COLLECTION_END
USAGE (Check Digit)
COLLECTION (Logical)
LOGICAL_MAXIMUM (9)
REPORT_SIZE (4)
REPORT_COUNT (1)
USAGE_MINIMUM (Check Digit Disable)
USAGE_MAXIMUM (Enable Code 39 Check Digit)
OUTPUT (Data,Ary,Abs)
COLLECTION_END
LOGICAL_MAXIMUM (255)
REPORT_SIZE (8)
REPORT_COUNT (4)
USAGE (Minimum Length to Decode)
USAGE (Maximum Length to Decode)
USAGE (First Discrete Length to Decode)
USAGE (Second Discrete Length to Decode)
OUTPUT (Data,Var,Abs)
END_COLLECTION
46 Universal Serial Bus HID Point of Sale Usage Tables
Version 1.02 March 5, 2001
Figure 19: Example MSI Plessey Control Report
Byte 7 6 5 4 3 2 1 0
0 Report ID = 11
1 MSI/Plessey Check Digit (Check Digit Transmit MSI/Plessey Length MSI/ Disable – Check Digit Code 39 Enable) MSI/Ples Type (Read Any Plessey sey Length – Check for
Check Discrete Lengths)
Digit
2 MSI/Plessey Minimum Length
3 MSI/Plessey Maximum Length
4 MSI/Plessey Discrete Length 1
5 MSI/Plessey Discrete Length 2
Universal Serial Bus HID Point of Sale Usage Tables 47
Version 1.02 March 5, 2001
6.1.12 Codabar Control Report
USAGE (Codabar Control Report)
COLLECTION (Logical)
REPORT_ID (11)
LOGICAL_MINIMUM (0)
LOGICAL_MAXIMUM (1)
REPORT_SIZE (1)
REPORT_COUNT (1)
USAGE (Codabar)
OUTPUT (Data,Var,Abs)
USAGE (Data Length Method)
COLLECTION (Logical)
REPORT_SIZE (2)
LOGICAL_MAXIMUM (3)
REPORT_COUNT (1)
USAGE_MINIMUM (Read any Length)
USAGE_MAXIMUM (Check for Discrete Lengths)
OUTPUT (Data,Ary,Abs)
COLLECTION_END
USAGE (Transmit Check Digit)
COLLECTION (Logical)
LOGICAL_MAXIMUM (1)
REPORT_SIZE (1)
REPORT_COUNT (1)
USAGE_MINIMUM (Disable Check Digit Transmit)
USAGE_MAXIMUM (Enable Check Digit Transmit)
OUTPUT (Data,Ary,Abs)
COLLECTION_END
USAGE (Check Digit)
COLLECTION (Logical)
LOGICAL_MAXIMUM (9)
REPORT_SIZE (4)
REPORT_COUNT (1)
USAGE_MINIMUM (Check Digit Disable)
USAGE_MAXIMUM (Enable Code 39 Check Digit)
OUTPUT (Data,Ary,Abs)
COLLECTION_END
LOGICAL_MAXIMUM (255)
REPORT_SIZE (8)
REPORT_COUNT (4)
USAGE (Minimum Length to Decode)
USAGE (Maximum Length to Decode)
USAGE (First Discrete Length to Decode)
USAGE (Second Discrete Length to Decode)
OUTPUT (Data,Var,Abs)
LOGICAL_MAXIMUM (1)
REPORT_SIZE (1)
REPORT_COUNT (1)
USAGE (Transmit Start/Stop)
OUTPUT (Data,Var,Abs)
END_COLLECTION
48 Universal Serial Bus HID Point of Sale Usage Tables
Version 1.02 March 5, 2001
Figure 20: Example Codabar Control Report
Byte 7 6 5 4 3 2 1 0
0 Report ID = 12
1 Codabar Check Digit (Check Digit Disable –
Check Digit Code 39 Enable)
Transmit
Codabar
Check
Digit
Codabar Length Type
(Read Any Length –
Check for Discrete
Lengths)
Codabar
2 Codabar Minimum Length
3 Codabar Maximum Length
4 Codabar Discrete Length 1
5 Codabar Discrete Length 2
6 Padding Transmit
Codabar
Start/
Stop
Universal Serial Bus HID Point of Sale Usage Tables 49
Version 1.02 March 5, 2001
6.1.13 Code 128 Control Report
USAGE (Code 128 Control Report)
COLLECTION (Logical)
REPORT_ID (11)
LOGICAL_MINIMUM (0)
LOGICAL_MAXIMUM (1)
REPORT_SIZE (1)
REPORT_COUNT (1)
USAGE (Code 128)
OUTPUT (Data,Var,Abs)
USAGE (Data Length Method)
COLLECTION (Logical)
REPORT_SIZE (7)
LOGICAL_MAXIMUM (3)
REPORT_COUNT (1)
USAGE_MINIMUM (Read any Length)
USAGE_MAXIMUM (Check for Discrete Lengths)
OUTPUT (Data,Ary,Abs)
COLLECTION_END
LOGICAL_MAXIMUM (255)
REPORT_SIZE (8)
REPORT_COUNT (4)
USAGE (Minimum Length to Decode)
USAGE (Maximum Length to Decode)
USAGE (First Discrete Length to Decode)
USAGE (Second Discrete Length to Decode)
OUTPUT (Data,Var,Abs)
LOGICAL_MAXIMUM (1)
REPORT_SIZE (1)
REPORT_COUNT (1)
USAGE (UCC/EAN-128)
OUTPUT (Data,Var,Abs)
END_COLLECTION
Figure 21: Example Code128 Control Report
Byte 7 6 5 4 3 2 1 0
0 Report ID = 13
1 Padding Code 128 Length
Type (Read Any
Length – Check for
Discrete Lengths)
Code 128
2 Code 128 Minimum Length (in elements)
3 Code 128 Maximum Length (in elements)
4 Code 128 Discrete Length 1 (in elements)
5 Code 128 Discrete Length 2 (in elements)
6 Padding UCC/
EAN-
128
50 Universal Serial Bus HID Point of Sale Usage Tables
Version 1.02 March 5, 2001
6.1.14 Misc 1D Control Report
USAGE (Misc 1D Control Report)
COLLECTION (Logical)
REPORT_ID (13)
REPORT_SIZE (1)
REPORT_COUNT (6)
USAGE (Code 93)
USAGE (BC412)
USAGE (Italian Pharmacy Code)
OUTPUT (Data,Var,Abs)
END_COLLECTION
Figure 22: Example Misc 1D Control Report
Byte 7 6 5 4 3 2 1 0
0 Report ID = 14
18 Padding Italian
Pharm-
acy Code
BC412 Code 93
Universal Serial Bus HID Point of Sale Usage Tables 51
Version 1.02 March 5, 2001
6.1.15 2D Control Report
USAGE (2D Control Report)
COLLECTION (Logical)
REPORT_ID (14)
LOGICAL_MINIMUM (0)
LOGICAL_MAXIMUM (1)
REPORT_SIZE (1)
REPORT_COUNT (24)
USAGE (Aztec Code)
USAGE (Channel Code)
USAGE (Code 16)
USAGE (Code 32)
USAGE (Code 49)
USAGE (Code One)
USAGE (Colorcode)
USAGE (Data Matrix)
USAGE (MaxiCode)
USAGE (MicroPDF )
USAGE (PDF-417)
USAGE (PosiCode)
USAGE (QR Code)
USAGE (SuperCode)
USAGE (UltraCode)
USAGE (USD-5 (Slug Code))
USAGE (VeriCode)
OUTPUT (Data,Var,Abs)
END_COLLECTION
Figure 23: Example 2D Control Report
Bit
Byte 7 6 5 4 3 2 1 0
0 Report ID = 15
1 Data
Matrix
Color
Code
Code
One
Code 49 Code 32 Code 16 Channel
Code
Aztec
Code
2 USD-5
(Slug
Code)
Ultra-
Code
Super-
Code
QR-Code Posi-
Code
PDF-417 Micro-
Maxi-
Code
3 Padding Veri-
Code
52 Universal Serial Bus HID Point of Sale Usage Tables
Version 1.02 March 5, 2001
6.1.16 Attribute Report
USAGE (Attribute Report)
COLLECTION (Logical)
REPORT_ID (15)
LOGICAL_MINIMUM (0)
LOGICAL_MAXIMUM (1)
REPORT_SIZE (1)
REPORT_COUNT (24)
USAGE (Aiming/Pointer Mode)
USAGE (Bar Code Present Sensor)
USAGE (Class 1A Laser)
USAGE (Class 2 Laser)
USAGE (Heater Present)
USAGE (Contact Scanner)
USAGE (Electronic Article Surveillance)
USAGE (Error Indication LED)
USAGE (Fixed Beeper)
USAGE (Good Decode Indication LED)
USAGE (Hands Free Scanning)
USAGE (Intrinsically Safe)
USAGE (Klasse Eins Laser)
USAGE (Long Range Scanner)
USAGE (Mirror Speed Control )
USAGE (Not On File LED)
USAGE (Programmable Beeper)
USAGE (Triggerless)
USAGE (Wand)
USAGE (Water Resistant)
USAGE (Multi-Range Scanner)
USAGE (Proximity Sensor)
FEATURE (Data,Var,Abs)
END_COLLECTION
Figure 24: Example Attribute Report
Bit
Byte 7 6 5 4 3 2 1 0
0 Report ID = 16
1 Error
Indicatio
n LED
Elect-
ronic
Article
Surveil-
lance
Contact
Scanner
Heater
Present
Class 2
Laser
Class 1A
Laser
Bar Code
Present
Sensor
Aiming/
Pointer
Mode
2 Not on
File LED
Mirror
Speed
Control
Long
Range
Scanner
Klasse
Eins
Laser
Intrinsic-
ally Safe
Hands
Free
Scanning
Good
Decode
Indicatio
n LED
Fixed
Beeper
3 Padding Proximity
Sensor
Multi-
Range
Scanner
Water
Resistant
Wand Trigger-
less
Program-
mable
Beeper
Universal Serial Bus HID Point of Sale Usage Tables 53
Version 1.02 March 5, 2001
6.2 Scale Usage Examples
6.2.1 Report Descriptor
An example report descriptor for a scale is displayed below.
USAGE_PAGE (Weighing Devices)
USAGE (Scale Device)
COLLECTION (Application)
; Note: The Constant flags indicate that the Scale Class
; cannot be modified by the host, making it a read-only field.
USAGE (Scale Attributes Report)
COLLECTION (Logical)
REPORT_ID (1)
REPORT_SIZE (8)
REPORT_COUNT (1)
LOGICAL_MINIMUM (1)
USAGE (Scale Class)
COLLECTION (Logical)
LOGICAL_MAXIMUM (10)
USAGE_MINIMUM (Scale Class I Metric)
USAGE_MAXIMUM (Scale Class Generic)
FEATURE (Constant,Ary,Abs)
END_COLLECTION()
USAGE (Weight Unit)
COLLECTION (Logical)
LOGICAL_MAXIMUM (5)
USAGE_MINIMUM (Weight Unit Milligram)
USAGE_MAXIMUM (Weight Unit Pound)
FEATURE (Data,Ary,Abs)
END_COLLECTION()
END_COLLECTION()
USAGE (Scale Control Report)
COLLECTION (Logical)
REPORT_ID (2)
REPORT_SIZE (1)
LOGICAL_MINIMUM (0)
LOGICAL_MAXIMUM (1)
USAGE (Enforced Zero Return)
USAGE (Zero Scale)
FEATURE (Data,Var,Abs)
REPORT_SIZE (6)
FEATURE (Constant,Var,Abs) ; declare pad
END_COLLECTION()
USAGE (Scale Data Report )
COLLECTION (Logical)
REPORT_ID (3)
REPORT_SIZE (8)
54 Universal Serial Bus HID Point of Sale Usage Tables
Version 1.02 March 5, 2001
LOGICAL_MINIMUM (1)
USAGE (Scale Status)
COLLECTION (Logical)
LOGICAL_MAXIMUM (8)
USAGE_MINIMUM (Scale Status Fault)
USAGE_MAXIMUM (Scale Status Requires Re-zeroing)
INPUT (Data,Ary,Abs)
END_COLLECTION()
USAGE (Weight Unit)
COLLECTION (Logical)
LOGICAL_MAXIMUM (5)
USAGE_MINIMUM (Milligram Units)
USAGE_MAXIMUM (Pound Units)
INPUT (Data,Ary,Abs)
END_COLLECTION()
LOGICAL_MINIMUM (-127)
LOGICAL_MAXIMUM (127)
USAGE (Data Scaling)
INPUT (Data,Var,Abs)
REPORT_SIZE(16)
LOGICAL_MINIMUM(0)
LOGICAL_MAXIMUM(65536)
USAGE(Data Weight)
INPUT (Data,Var,Abs)
END_COLLECTION()
USAGE (Scale Status Report)
COLLECTION (Logical)
REPORT_ID (4)
REPORT_SIZE (8)
USAGE (Scale Status)
COLLECTION (Logical)
LOGICAL_MINIMUM (1)
LOGICAL_MAXIMUM (8)
USAGE_MINIMUM (Scale Status Fault)
USAGE_MAXIMUM (Scale Status Requires Re-zeroing)
INPUT (Data,Ary,Abs)
END_COLLECTION()
END_COLLECTION()
; Note: The Constant flags indicate that the weight limit fields
; cannot be modified by the host, making them read-only fields.
USAGE (Scale Weight Limit Report)
COLLECTION (Logical)
REPORT_ID (5)
USAGE (Weight Unit)
COLLECTION (Logical)
LOGICAL_MINIMUM(1)
LOGICAL_MAXIMUM (5)
USAGE_MINIMUM (Milligram Units)
USAGE_MAXIMUM (Pound Units)
FEATURE (Constant,Ary,Abs)
END_COLLECTION()
Universal Serial Bus HID Point of Sale Usage Tables 55
Version 1.02 March 5, 2001
LOGICAL_MINIMUM (-127)
LOGICAL_MAXIMUM (127)
USAGE (Data Scaling)
FEATURE (Constant,Var,Abs)
REPORT_SIZE(16)
LOGICAL_MINIMUM(0)
LOGICAL_MAXIMUM(65536)
USAGE(Data Weight)
FEATURE (Constant,Var,Abs)
END_COLLECTION()
USAGE ( Scale Statistics Report )
COLLECTION (Logical)
REPORT_ID (6)
REPORT_SIZE(16)
REPORT_COUNT(2)
LOGICAL_MINIMUM(0)
LOGICAL_MAXIMUM(65536)
USAGE(Calibration Statistic)
USAGE(ZeroStatistic)
FEATURE (Constant,Var,Abs)
END_COLLECTION()
END COLLECTION()
56 Universal Serial Bus HID Point of Sale Usage Tables
Version 1.02 March 5, 2001
6.2.2 Scale Attributes Report
Figure 25: Example Scale Attributes Feature Report
Bit
Byte 7 6 5 4 3 2 1 0
0 Report ID = 1
1 Scale Class
2 Weight Units
Scale Class – Scale classification
Weight Units – units that weight will typically be reported
6.2.3 Scale Control Report
Figure 26: Example Scale Control Feature Report
Bit
Byte 7 6 5 4 3 2 1 0
0 Report ID = 2
1 Padding ZS EZR
EZR – Enforced Zero Return - A 1 enables the Enforced Zero Return operation and a 0 disables it.
ZS – Zero Scale – A 1 requests the zero scale operation.
Universal Serial Bus HID Point of Sale Usage Tables 57
Version 1.02 March 5, 2001
6.2.4 Scale Data Report
Figure 27: Example Scale Data Input Report
Bit
Byte 7 6 5 4 3 2 1 0
0 Report ID = 3
1 Scale Status
2 Weight Unit
3 Data Scaling
4 Data Weight LSB
5 Data Weight MSB
Scale Status – device status selector usage
Weight Unit – weight units selector usage
Data Scaling – data scaling usage
Data Weight MSB – Most Significant Byte of weight data usage
Data Weight LSB – Least Significant Byte of weight data usage
6.2.5 Scale Status Report
Figure 28: Example Scale Status Input Report
Bit
Byte 7 6 5 4 3 2 1 0
0 Report ID = 4
1 Scale Status
Scale Status – device status selector usage
6.2.6 Scale Weight Limit Report
Figure 29: Example Scale Weight Limit Feature Report
Bit
Byte 7 6 5 4 3 2 1 0
0 Report ID = 5
1 Units
58 Universal Serial Bus HID Point of Sale Usage Tables
Version 1.02 March 5, 2001
2 Scaling
3 Data Weight LSB
4 Data Weight MSB
Units – unit selector usage
Scaling – data scaling usage
Data Weight MSB – Most Significant Byte of weight limit (weight data usage)
Data Weight LSB – Least Significant Byte of weight limit (weight data usage)
6.2.7 Scale Statistics Report
Figure 30: Example Scale Statistics Feature Report
Bit
Byte 7 6 5 4 3 2 1 0
0 Report ID = 6
1 Calibration Count LSB
2 Calibration Count MSB
3 Re-zero Count LSB
4 Re-zero Count MSB
Calibration Count – number of calibrations since manufacture or last power on
Re-Zero Count – number of re-zeroing activities since manufacture or last power on
6.3 MSR Report Example The following examples assume an MSR device that can read three data tracks.
6.3.1 3-Track ISO Example
UsagePage(MSR),
Usage(MSR Device Read-Only), ; this is a read-only MSR device
Collection(Application), ; Start the MSR collection
Usage(MSR Device Read-Only),
Collection(Physical)
LogicalMinimum(0),
LogicalMaximum(255),
ReportSize(8),
Usage(ISO Track 1 Length),
Usage(ISO Track 2 Length),
Usage(ISO Track 3 Length),
ReportCount(3),
Input(Data,Var,Abs),
Universal Serial Bus HID Point of Sale Usage Tables 59
Version 1.02 March 5, 2001
Usage(ISO Track 1 Data),
ReportCount(93),2
Input(Data,Var,Abs,Buf),
Usage(ISO Track 2 Data),
ReportCount(33),
Input(Data,Var,Abs,Buf),
Usage(ISO Track 3 Data),
ReportCount(93),
Input(Data,Var,Abs,Buf),
End Collection(),
End Collection()
Figure 1: Example MSR Report
Bit
Byte 7 6 5 4 3 2 1 0
0 ISO Track 1 length
1 ISO Track 2 length
2 ISO Track 3 length
3 to 95 ISO Track 1 Data
96 to 128 ISO Track 2 Data
129 to 221 ISO Track 3 Data
2 The track lengths in this example are chosen as the maximum length of data tracks, when recorded at 210,
75, and 210 bpi (+4%) for a length of 3.375 inches. Although these numbers were not chosen purely at
random, there is no requirement in this specification that any particular device conform to these values.
60 Universal Serial Bus HID Point of Sale Usage Tables
Version 1.02 March 5, 2001
Universal Serial Bus HID Point of Sale Usage Tables 61
Version 1.02 March 5, 2001
7 Usage Index
2 2D Control Report .......................................... 11
A Active Time ...................................................... 13
Add EAN 2/3 Label Definition ......................... 17
Aim Duration .................................................... 15
Aiming Laser Pattern ........................................ 13
Aiming/Pointer Mode ....................................... 11
Attribute Report ............................................. 10
Aztec Code ........................................................ 19
B Bar Code Badge Reader ................................. 10
Bar Code Present............................................... 13
Bar Code Present Sensor ................................... 12
Bar Code Scanner ........................................... 10
Bar Code Scanner Cradle .............................. 10
Bar Space Data .................................................. 20 BC412 ............................................................... 18
Beeper State ...................................................... 13
Bookland EAN .................................................. 15
C Calibration Count ........................................... 25
Channel Code .................................................... 19
Check ............................................................... 16
Check Digit ...................................................... 18
Check Digit Disable .......................................... 18
Check Digit Enable Codabar ............................ 19
Check Digit Enable Code 39 ............................. 19
Check Digit Enable Interleaved 2 of 5 OPCC ... 18
Check Digit Enable Interleaved 2 of 5 USS ...... 18
Check Digit Enable One MSI Plessey Check.... 19
Check Digit Enable Standard 2 of 5 OPCC ...... 18
Check Digit Enable Standard 2 of 5 USS ......... 19
Check Digit Enable Two MSI Plessey .............. 19
Check Disable Price .......................................... 17
Check Enable 4 digit Price ................................ 17
Check Enable 5 digit Price ................................ 17
Check Enable European 4 digit Price ................ 17
Check Enable European 5 digit Price ................ 17
Class 1A Laser .................................................. 12
Class 2 Laser ..................................................... 12
Clear all EAN 2/3 Label Definitions ................. 17
Codabar ............................................................. 18
Codabar Control Report ................................ 11
Code 128 ........................................................... 18
Code 128 Control Report ............................... 11
Code 16 ............................................................. 19
Code 32 ............................................................. 19
Code 39 ............................................................. 18
Code 39 Control Report .................................. 11
Code 49 ............................................................. 19
Code 93 ............................................................. 18
Code One .......................................................... 19
Colorcode .......................................................... 19
Commit Parameters to NVM ............................. 14
Constant Electronic Article Surveillance .......... 12
Contact Scanner ................................................ 12
Convert EAN 8 to 13 Type ............................... 15
Convert UPC A to EAN-13 ............................... 15
Cordless Scanner Base .................................... 10
D Data Length Method ....................................... 21
Data Matrix. ...................................................... 19
Data Prefix ....................................................... 13
Data Scaling ...................................................... 25
Data Weight ...................................................... 25
Decode Data Continued .................................... 20
Decoded Data .................................................... 20
Disable Check Digit Transmit ........................... 19
Discrete Length to Decode 1 ............................. 21
Discrete Length to Decode 2 ............................. 21
DL Method Check for Discrete ......................... 21 DL Method Check in Range .............................. 21
DL Method Read any ........................................ 21
Dumb Bar Code Scanner ................................ 10
E EAN 13 Flag Digit 1. ........................................ 17
EAN 13 Flag Digit 2. ........................................ 17
EAN 13 Flag Digit 3. ........................................ 17
EAN 2/3 Label Control Report ...................... 11
EAN 8 Flag Digit 1. .......................................... 17
EAN 8 Flag Digit 2. .......................................... 17
EAN 8 Flag Digit 3. .......................................... 17
EAN Three Label .............................................. 17
EAN Two Label ................................................ 17
EAN-13 ............................................................. 16
EAN-8 ............................................................... 16
EAN-99 128_Mandatory ................................... 16
EAN-99 P5/128_Optional ................................. 16
Electronic Article Surveillance Notification ..... 12
Enable Check Digit Transmit ............................ 19
Enable EAN Two Label .................................... 16
Enforced Zero Return ........................................ 26
Error Indication ................................................. 12
Universal Serial Bus HID Point of Sale Usage Tables 63
Version 1.02 March 5, 2001
F Fixed Beeper ..................................................... 12
Fragment Decoding ........................................... 13
Full ASCII Conversion ..................................... 18
G Good Decode Indication.................................... 12
Good Read Lamp Duration ............................... 15
Good Read Lamp Intensity ............................... 15
Good Read LED ................................................ 15
Good Read Tone Frequency .............................. 15
Good Read Tone Length ................................... 15
Good Read Tone Volume .................................. 15
Good Read When to Indicate ......................... 15
GRWTI After Decode ....................................... 15
GRWTI Beep/Lamp after transmit .................... 15
GRWTI No Beep/Lamp use at all ..................... 15
H Hands Free Scanning ......................................... 12
Heater Present ................................................... 12
I Initiate Barcode Read ........................................ 14
Interleaved 2 of 5 .............................................. 18
Interleaved 2 of 5 Control Report .................. 11
Intrinsically Safe ............................................... 12
Italian Pharmacy Code ...................................... 18
K Klasse Eins Laser .............................................. 12
L Laser On Time .................................................. 13
Laser State ......................................................... 13
Lockout Time .................................................... 13
Long Range Scanner ......................................... 12
M MaxiCode .......................................................... 19
Maximum Length to Decode............................. 21
MicroPDF ......................................................... 19
Minimum Length to Decode ............................. 21
Mirror Speed Control ........................................ 12 Misc 1D Control Report ................................. 11
Motor State ........................................................ 13
Motor Timeout .................................................. 13
MSI Plessey Control Report ........................... 11
MSI/Plessey ...................................................... 18
MSR Read only ................................................. 28
Multi-Range Scanner ........................................ 13
N No Read Message .............................................. 15
Not On File LED ............................................... 12
Not on File Volume ........................................... 15
P Parameter Scanning ........................................... 14
Parameters Changed .......................................... 14
PDF-417 ............................................................ 19
Periodical ........................................................... 16
Periodical Auto-Discriminate +2 ....................... 16
Periodical Auto-Discriminate +5 ....................... 16
Periodical Ignore +2 .......................................... 16
Periodical Ignore +5 .......................................... 16
Periodical Only Decode with +2 ....................... 16
Periodical Only Decode with +5 ....................... 16
Polarity Inverted Bar Code ................................ 20
Polarity Normal Bar Code ................................. 20
PosiCode............................................................ 19
Power On Reset Scanner ................................... 13
Power-Up Beep ................................................. 15 Prefix AIMI ....................................................... 13
Prefix None........................................................ 13
Prefix Proprietary. ............................................. 13
Prevent Read of Barcodes ................................. 14
Programmable Beeper. ...................................... 12
Proximity Sensor ............................................... 13
Q QR Code ............................................................ 19
R Raw Data Polarity ........................................... 20
Raw Scanned Data Report .............................. 10
Re-zero Count .................................................. 25
S Scale .................................................................. 23
Scale Attribute Report .................................... 24
Scale Class ........................................................ 23
Scale Class Generic ........................................... 24
Scale Class I Metric ........................................... 24
Scale Class II Metric ......................................... 24
Scale Class III English....................................... 24
Scale Class III Metric ........................................ 24
Scale Class IIIL English .................................... 24
Scale Class IIIL Metric ...................................... 24
Scale Class IV English ...................................... 24
Scale Class IV Metric ........................................ 24
Scale Control Report ....................................... 24
Scale Data Report ............................................ 24
Scale Statistics Report ..................................... 24
Scale Status ...................................................... 25
Scale Status Fault .............................................. 25
Scale Status In Motion ....................................... 26
Scale Status Over Weight Limit ........................ 26
62 Universal Serial Bus HID Point of Sale Usage Tables
Version 1.02 March 5, 2001
Scale Status Report ......................................... 24
Scale Status Requires Calibration ..................... 26 Scale Status Requires Re-zeroing ..................... 26
Scale Status Stable at Center of Zero ................ 25
Scale Status Under Zero .................................... 26
Scale Status Weight Stable ............................... 26
Scale Weight Limit Report ............................. 24
Scanned Data Report ...................................... 10 Scanner Data Accuracy ..................................... 20
Scanner In Cradle .............................................. 14
Scanner In Range .............................................. 14
Scanner Read Confidence ................................. 13
Set parameter default values ............................. 14
Settings Report ................................................ 10
Sound Error Beep .............................................. 15
Sound Good Read Beep .................................... 15
Sound Not On File Beep ................................... 15
Standard 2 of 5 .................................................. 18
Standard 2 of 5 Control Report ..................... 11 Standard 2 of 5 IATA ....................................... 18
Status Report ................................................... 11
SuperCode ......................................................... 20
Symbology Identifier 1 ..................................... 20
Symbology Identifier 2 ..................................... 20
Symbology Identifier 3 ..................................... 20
T Track 1 Data...................................................... 28
Track 1 Length .................................................. 28
Track 2 Data...................................................... 28 Track 2 Length .................................................. 28
Track 3 Data...................................................... 28
Track 3 Length .................................................. 28
Track Data......................................................... 28
Track JIS ........................................................... 28
Track JIS Data .................................................. 28 Transmit Check Digit ..................................... 19
Transmit Codabar Start/Stop ............................. 18
Trigger Mode ................................................... 14
Trigger Mode Blinking Laser On ...................... 14
Trigger Mode Continuous Laser On ................. 14
Trigger Mode Laser on while Pulled ................ 14
Trigger Mode Laser stays on after release ........ 14
Trigger Report ................................................. 10 Trigger State ...................................................... 14
Triggerless ......................................................... 12
Tri-Optic ........................................................... 18
U UCC/EAN-128 .................................................. 18
UltraCode .......................................................... 20
UPC/EAN ......................................................... 16
UPC/EAN Control Report .............................. 11
UPC/EAN Coupon Code ................................... 16
UPC-A............................................................... 16 UPC-A with 128 Mandatory ............................. 16
UPC-A with 128 Optional ................................. 16
UPC-A with P5 Optional .................................. 16
UPC-E ............................................................... 16
UPC-E1 ............................................................. 16
V VeriCode ........................................................... 20
W Wand ................................................................. 12
Water Resistant ................................................. 12
Weighing Device .............................................. 23
Weight Unit ...................................................... 25
Weight Unit Avoir Ton ..................................... 25
Weight Unit Carats............................................ 25 Weight Unit Grains ........................................... 25
Weight Unit Gram ............................................. 25
Weight Unit Kilogram ...................................... 25
Weight Unit Metric Ton .................................... 25
Weight Unit Milligram ...................................... 25
Weight Unit Ounce ........................................... 25 Weight Unit Pennyweights ............................... 25
Weight Unit Pound ............................................ 25
Weight Unit Taels ............................................. 25
Weight Unit Troy Ounce ................................... 25
Z Zero Scale ......................................................... 26